Monday, February 15, 2016

High fat fed mice on stearic acid

The concept of finding anything positive about palmitic acid is still tantamount to research suicide. However, stearic acid is a rather different matter. It's lipid "neutral" for those poor folks who still bow their heads and kneel before the altar of the lipid hypothesis. So you can publish good stuff about stearic acid with relative impunity.

Raymond sent me the PhD thesis of Valerie Reeves, Kentucky University.


Before we think about leptin receptor defective mice (another day), we can ask questions about the control groups. Such as:

What happens if you feed a fairly typical C57Bl/6 mouse 40% of its calories from fat, based on fully saturated stearic acid?























They stay significantly slimmer than they do on CIAB (chow) and probably slimmer than when fed on 40% oleic acid (olive oil w/o the PUFA).

(EDIT As Tucker pointed out in comments: You might be able to explain the relative weight gains in terms of omega 6 PUFA. Chow was about 13% of energy as PUFA, stearic acid diet about 5% PUFA and the oleic acid diet about 14% PUFA. The correlation of PUFA with fat gain isn’t perfect but it’s quite close… END EDIT)

Now this is clearly impossible, as anyone who has read anything about Bl/6 mice and fat will be very aware. So the poor girl did it again:























This time we have p values sprouting all over the graph like mould in a Winter bathroom. For mice, chow makes you fat. Olive oil makes you fat. Stearic acid doesn't. Impossible I know, but that's twice it has happened. For fat mass the p values never make pay dirt but the writing is on the wall for oleic acid and fat gain too:























The wild type control mice were so nice in this PhD thesis that I thought I'd just put up these few figures before we consider what might happen if (gasp) you put an obese, diabetic db-/- mouse on a highly saturated stearic acid based diet.

I think palmitic acid would do exactly the same as stearic acid did for these mice. But who would risk their career with a finding like that? The corollary is that when you see a C57Bl/6 mouse get fat on a high fat diet, you know there are lots of double bonds in that fat........

Peter

68 comments:

Tucker Goodrich said...

"...olive oil w/o the PUFA..."

What makes you say this? Table 2.2 (which lists the fat composition of the various diets) says the three diets (chow, stearic, and oleic) lists "% Other Essential Fatty Acids" as 74.9%, 13%, and 34%, respectively. EFAs are all PUFAs, aren't they?

She never does break down the PUFA further, that I can see...

If I'm doing my arithmetic correctly, that means PUFA are 12.73%, 5.2%, and 13.94% of E, respectively.

That difference may well explain the differing outcomes in the latter two. See also Figure 3.3.4, charting liver-fat accumulation.

Tucker Goodrich said...

Indeed, she states here: "For each experimental diet, the majority of the fat
content was either in the form of stearic acid (85% of total fat) or oleic acid (67% of total fat)."

[Sorry for my mangled second sentence above, btw. Hopefully the idea was clear.]

Peter said...

Tucker, you're correct. I spent some time failing to get the diet formulae from the manufacturers website (seems to have been some sort of takeover, from my browsing?). Didn't pick up on her breakdown so I was working on the basis the diets contained what they were described as. There are 95% stearate preps out there.......

Ta, Peter

Peter said...

Just putting an edit in.

Peter

Tucker Goodrich said...


" I spent some time failing to get the diet formulae from the manufacturers website (seems to have been some sort of takeover, from my browsing?)."

Yes, you wouldn't have had any luck finding the formulae on the website, as she explained:

"... The fat content of each diet was unique. The experimental diets were custom made by Harlan Teklad using a modified TD.03459 diet. A Harlan Teklad nutritionist calculated all dietary nutritional values."

No worries. Keep up the good work!

Oh, and I wanted to draw your attention to this post of mine from last week, which will explain why I think that the n-6 content of her diets likely explains a good part of her results re: stearate:

"The Cause of Metabolic Syndrome: Excess Omega-6 Fats (Linoleic Acid) in Your Mitochondria"

I tried to take out a level from your proton series, to the next step in the chain... I thought at one point you'd done a post comparing ROS generation from complex I vs. complex III, but couldn't find it when I was doing that post.

Passthecream said...

Slightly off topic. I found this paper earlier today but haven't looked right through it yet for a quality check. It seems like a brave hypothesis to test in a journal of nutrition ie that sat fat causes less rise in a clotting factor than unsat. However I didn't notice any mention of the most effective way of lowering average TAG levels, a lower carbohydrate intake.

Passthecream said...

the link

http://ajcn.nutrition.org/content/77/5/1125.full

raphi said...

Wait, ad lib feeding of different diets produced different weight gain & caloric balance? Witch-craft! Someone inform Stephan Guyenet stat!

The PUFA/weight gain correlation keeps getting stronger. Thankfully, we don't need all that many PUFAs to maintain good health. From Chris Masterjohn's 2008 paper "How Essential Are the Essential Fatty Acids?" https://www.dropbox.com/s/w035ul9vsxjgrzd/Masterjohn%20-%202008%20-%20How%20Essential%20Are%20the%20Essential%20Fatty%20Acids.pdf?dl=0
- "This suggests that the EFA requirement during and preceding pregnancy is about one percent of calories when supplied by lard or butter and one quarter this amount when supplied by liver."
- "If an EFA requirement for most healthy adults on a mixed diet exists at all, however, it must be so low that it is essentially impossible to achieve a deficiency. During periods of growth or recovery from injury, animal fats providing 0.5 percent of calories as EFA are probably sufficient; and during pregnancy, animal fats providing one percent of calories as EFA are probably sufficient. On diets low in sugar and rich in vitamin B6, especially diets including liver, the requirement is almost certainly even lower than this."

TL;DR Eat animals with the odd bits & avoid vegetable oils.

karl said...

I'm an old fashioned sort of guy - I like seeing a single variable in experiments (2 variables would take 4 groups etc). Surveys - the stamp collecting of science - are good science when they are used for inductive purposes in order to come up with a good controlled experiment.

When we look at 2 feeds - with different oils made up of different amounts of various fatty-acids we are someplace between the two useful forms of scientific research - stamp-collecting and controlled experiment. These papers can easily muddy the water rather than enlighten us. How is it that they have become so common?

If the feeds are from two different companies (as is often the case) we have differing base feed lots - further confounding any signal one might find in the noise.

Is it just too expensive to use pure fatty acids? I just don't get it. I know "everyone does it", but real science requires that bending over backwards to eliminate even the slightest confounding variable. I really don't understand why such papers are published.

,.,.
That being said - I had another thought that needs a real experiment to clarify. I was thinking from the point of view of complex control loops (biology will use what works - even if it confuses biologists). It occurred to me that a set-point is likely involved in an integrating feedback - which smells a bit like leptin. But then I though further - what happens to the leptin output if the type of fatty acids stored is changed?

Ferinstance - if one's adipose tissue is made up of 20% extra 18:2 ω-6 linoleic acid - might it effect the amount of leptin output? (after storage - all go on the same diet and we compare leptin levels?)

And once in the adipose tissue - how long on a diet lower in linoleic acid would it take to substantially reduce the amount in storage?

That led me to this paper and This one as well.

So if I understand this correctly - messing with the amount of PUFA in the diet might screw up the leptin feedback - as well as inappropriately increasing insulin sensitivity.

I wonder if someone with better access to search tools than I have can find something more or even papers on the turnover rate of fatty acids in adipocytes? (If one corrects over consumption of PUFA I can imagine that it could take a long time to change what is in storage. How long?)

( We should also be able to see epidemiological data of what happens when vegetable oils are adopted in 3-rd world countries. Not all places were marketed at the same time. )

,.,.

The sympathetic nervous system also messes with adipose tissue as seen here -

Aaron said...

I might worry about this though:

Stearic acid, clotting, and thrombosis.
Hoak JC1.
Author information
Abstract
Stearic acid causes hypercoagulability of the blood by activation of factor XII and by aggregation of blood platelets. Injection of unbound stearic acid (sodium salt) into the systemic circulation of dogs was followed by massive generalized thrombosis and sudden death. Similar infusions into birds, which are deficient in factor XII, did not cause hypercoagulability or thrombosis. The effects of the long-chain saturated fatty acids could be prevented by using albumin to bind the stearic acid at a molar ratio of free fatty acid (FFA) to albumin of < 2. The major issue is whether eating foods rich in stearic acid can cause a thrombogenic effect. We have no experimental evidence to support this concept. If a thrombogenic effect of long-chain saturated fatty acids exists in humans, it is most likely to occur as an aberration of fatty acid transport in which the FFA-albumin molar ratio exceeds 2 either as a result of very high plasma FFA concentrations from lipid mobilization or a low concentration of albumin in the blood as found in disease states such as the nephrotic syndrome.

Unknown said...

Karl,

You inquired how long it takes to deal with the excess PUFA in storage. I don't have an answer to that but I'd like to expand the question by adding in, what can we do to mitigate the damage as PUFAs are released? Obviously dietary SFA should help, is that enough? This is definitely of prime interest to those in the recovery process.

Peter said...

@Aaron: In the real world: “We have no experimental evidence to support this concept”. I picked that abstract up several years ago. I still bleed well on a dairy based diet…

Jimmy and karl, the issue of stored PUFA is very, very important. Sauer’s work with fasting omega 6 loaded rats showed this was catastrophic for cancer management. I posted about it here http://high-fat-nutrition.blogspot.co.uk/2013/08/starvation-and-cancer-growth-sauer-vs.html and http://high-fat-nutrition.blogspot.co.uk/2013/09/omega-3s-and-g-protein-coupled-receptors.html. Conversion of omega 6s to 13-hydroxyoctadecadienoic acid is really bad news if you have cancer. Acute weight loss on a ketogenic diet will spill large amounts of omega 6s from your adipocytes and these will be converted to cancer growth promoters, assuming you are overweight and have cancer courtesy of drinking corn oil… There may be some use for high level g-protein coupled signalling using DHA (gasp) to avoid this by minimising lipolysis, combined with minimising the weight loss so common with ketogenic dieting. Using stearic acid, or at least butter.

Peter

Leo said...

Hello Peter,
Very interesting article. I do have one question, not entirely related to this. I drink water which is made by an Enagic Kangen machine. It says it has a ph of 9.5 and goes through electrolysis. It also claims it has extra electrons to scavenge free radicals. Do you think this would impact proper superoxide signaling in physiological insulin resistance ? There is evidence that antioxidants can cause problems with insulin signaling.
Thank you

Peter said...

Unknown, you are way beyond anything I've thought through. Except I hate exogenous antioxidants (unless you want to mess with your superoxide and hydrogen peroxide signalling....).

Peter

Leo said...

If the exogenous electrons from the water bind to the superoxide, would there still be signaling or none at all?

Tucker Goodrich said...

"Stearic acid causes hypercoagulability of the blood..."

Maybe if you main-line it. Stearic acid (the term comes from tallow, see Wikipedia) is what one finds in cattle. If my little dietary voyage has taught me anything, it's that if there's only one superfood, it's cattle. Maasai do just fine on an all-cattle diet, and the evolutionary evidence is that we're pretty uniquely adapted (among primates) to a high-ruminant diet.

So I wouldn't lose sleep over your stearic acid consumption.

karl said...

The best I've come up with as a data point on FA turnover was an observation that Dr. Davis made about lowering Lp(a) with high dose fish oil. The thinking goes like this - long chain O-3(not plant based) blocks the bit that converts LA into AA ( do we really KNOW this?). He says patients with elevated Lp(a) would see it lowered over 6-mo to 2 years later.

Now it is possible that Lp(a) simply represents an inflammatory state caused by AA - exchanging the stored LA with O-3s? Not much to go by - but 6-mo to 2-years sounds about right.

I have to be careful thinking about this: circulating FA(Fatty Acids) are not stored FA. I'm thinking that the effect of stored FA coming out of storage may muck up the cells machinery differently.

,.,.
FA types:
16:0 palmitic acid (Hexadecanoic acid) F:N ratio of about 0.48 That's 15 FADH2s and 31 NADHs
18:0 Stearic acid (Octadecanoic acid) Found in Cocoa
Stearic acid (C18:0) is the only long chain saturated fatty acid that does not raise LDL cholesterol. (not that I care) Also - stearic acid has been shown to increase Lp(a)

Our bodies take any excess carbs and convert them to 16:0 - really hard to think that we would have evolved 16:0 to make ourselves sick.

Here is the confounding bit - the papers are mostly based on some food item. For example olive-oil - they call it a MUFA but it is also 10% LA. BUT olive oil is full of polyphenols which have all sorts of effects. Once again - there is a huge need to study pure stuff - single variable - calling olive oil a single variable is just junk science. Why can't we continue the synthetic diet research of the 1960's?

If we look at what is listed as the FA content of human fat - there is a lot of O-6. (I wonder what they would find in primitive people on non western diets?)
see: Fat_contents_of_food

- look a little below at the graphs - and I checked - the amount of PUFA in the diet continues to increase - a wild and uncontrolled human experiment.

Really wonder if stored human FA was different before 1920? Does the LA get stuck in adiocytes? Is there a preference to which FA get released?


Chicken fat and egg fat is loaded with LA - I'm guessing because they feed them so much corn. There are O-3 eggs in the store - but no low LA eggs...

Corn looks like the source - Corn oil C16:0 10.9%; C18:0 2.0%; C20:0 0.4%; C16:1 0.2%; C18:1 25.4%; C18:2 59.6%; C18:3 1.2% Source: Richard O'Brien "Fats and Oils: Formulating and Processing for Applications" (C18:2 is LA 59% )

My hunch is the breeding of corn for frost resistance - here is some research looking for other seed oils http://aje.oxfordjournals.org/content/147/4/342.full.pdf
It is interesting to note that the LA content goes up with cold - (sounds like like plant anti-freeze to me. ) There has been a lot of effort to increase oil production in corn via selection - I was not able to find (with my limited search tools) if the amount of LA in corn oil has changed over time (my hunch is it has with frost resistance. )


I didn't find any research where they were trying to reduce LA in corn.. not on the mainstream radar yet..

R Cobb said...

Peter- I know you have more important things to do with your time-but if you write a book I'd buy it... thanks for your time in these posts!
~R

Tucker Goodrich said...

@karl:

"The best I've come up with as a data point on FA turnover was an observation that Dr. Davis made about lowering Lp(a) with high dose fish oil. The thinking goes like this - long chain O-3(not plant based) blocks the bit that converts LA into AA ( do we really KNOW this?). He says patients with elevated Lp(a) would see it lowered over 6-mo to 2 years later."

See here:

"Quotes by Ray Peat, PhD
“The half-life of fats in human adipose tissue is about 600 days, meaning that significant amounts of previously consumed oils will still be present up to four years after they have been removed from the diet.”

http://www.functionalps.com/blog/2012/04/22/fatty-acid-composition-of-diet-reflected-in-fat-tissue/comment-page-1/

From here:

"Am J Clin Nutr. 1980 Jan;33(1):81-5.
"A mathematical relationship between the fatty acid composition of the diet and that of the adipose tissue in man.
"Beynen AC, Hermus RJ, Hautvast JG.
"Based on literature data, the hypothesis is advanced that in human subjects a direct mathematical relationship exists between the average fatty acid composition of the habitual diet and that of the lipid stores of subcutaneous adipose tissue. Since the half-life of adipose tissue fatty acids in man is in the order of 600 days, the fatty acid pattern of depot fat provides a qualitative measure of the fat intake over a period of 2 to 3 years."

http://www.ncbi.nlm.nih.gov/pubmed/7355785

Stephan Guyenet, back when he was more concerned w/ PUFA intake, said the same thing, but I don't have time to look up the post.

My personal experience was: the first thing I did on the road to Paleo was cut n-6 PUFA intake, thanks to Stephen's posts.

My elevated liver enzymes normalized four years later, without a subsequent change of behavior after going fully Paleo a couple of months after cutting n-6. I've read that the elevated enzymes I had were indicative of fatty liver... So Peat's statement is true to my experience.

Tucker Goodrich said...

@karl:

"The thinking goes like this - long chain O-3(not plant based) blocks the bit that converts LA into AA ( do we really KNOW this?)"

It's the other way around. LA blocks conversion of short-chain n-3 to longer-chain n-3. There's a good bit of data that one can't out-compete high LA consumption, including the data on age-related macular degeneration, which is clearest, I think. (I have a post on that data if you're interested.)

Tucker Goodrich said...

@karl: One last:

"Really wonder if stored human FA was different before 1920? Does the LA get stuck in adiocytes? Is there a preference to which FA get released?"

Yes, LA concentrates in the tissues, especially adipose tissues, of non-ruminant species. Ruminants are grass-eaters, one expects their LA exposure would be highest, the fact that they alone have a rate-limiter is very suggestive.

Again, Stephan Guyenet's done some posts (if he hasn't deleted them) on human PUFA adipose concentration. I think he even had a paper published on it.

And I wouldn't worry about what happens with LA coming out of adipocytes. I'd worry about getting it out of adipocytes, as it negatively affects all tissues. Better to be rid of it sooner than later...

karl said...

@Tucker Goodrich

600 days about 2-years - way longer than most people can stay on any diet. Supports Dr. Davis's guess pretty well.

I've not seen that about N-3 to long-chain n-3 - my understanding was long-chain was not produced in humans. The bit I saw was that LA => AA was supposed to be blocked by fish oil (via competition) - I think it came from this:
https://www.ncbi.nlm.nih.gov/pubmed/2193500

But there are a few 'Maybes' in that paper - and at lower levels it has not really helped much with CAD.

( The trouble is some blog theories get parroted as research - I always want to see the source.) If anyone can point me to some paper?? (I've seen competitive blockage of LA => AA by fish-oil in various forms in several places - never with any reference ).

,.,.,

Found the Stephan post :
http://wholehealthsource.blogspot.com/2011/08/seed-oils-and-body-fatness-problematic.html

I would like to see that graph next to obesity rates over the same period.. (correlation is not causation - but it sure begs for some careful experiments ).

,.,.,.


I see LA content in adipose tissue is going up - so is consumption - where did you see that it 'concentrates'? ( karl -(at-) xtronics.com )

For LA concentration there would have to be one of the following - fails to be released from adipose tissue, is preferential stored in adipose, fails to get used as fuel.

High LA food is simply not a natural human food -

Again - I'm reluctant to think about PUFAs as a single 'thing' - there are various forms - LA is just one form.

My original entry into the different types of FA came from oxLDL and it's different stimulus of the immune system than the plain old LDL that so many blather on about. When I saw that LA greatly increases oxLDL I changed my treatment for CAD. ( I was able to get to the lower 5-percentile of the public for oxLDL in my blood tests - I have a fair amount of faith that oxLDL stimulates recruiting of macrophage that turn in to foam-cells. ).

It is curious that LA, one substance, mucks up so many things, yet is still "generally recognized as safe(gras)".

Tucker Goodrich said...

@karl:

" If anyone can point me to some paper??"

Here's the query I used:

https://scholar.google.com/scholar?hl=en&q=linoleic+acid+competes+conversion+alpha+linolenic+acid&btnG=&as_sdt=1%2C7&as_sdtp=

Here's what I found:

"...Overall, conversion of deuterated 18:3(n − 3) and 18:2(n − 6) was reduced by 40–54% when dietary intake of 18:2(n − 6) was increased from 15 to 30 g/day. Comparison of the deuterated 18:3(n − 3) and 18:2(n − 6) data for plasma triacylglycerol and phosphatidylcholine (PC) indicated that 18:2(n − 6) was preferentially incorporated into PC. Dietary 18:2(n − 6) intake did not alter acyltransferase selectivity but activity was reduced when 18:2(n − 6) intake was increased...."

"Dietary linoleic acid influences desaturation and acylation of deuterium-labeled linoleic and linolenic acids in young adult males"

http://www.sciencedirect.com/science/article/pii/0005276094000549

"(correlation is not causation - but it sure begs for some careful experiments )."

Experiments have started to be done. We can move past correlation:

"Dietary linoleic acid elevates endogenous 2-AG and anandamide and induces obesity"

http://www.ncbi.nlm.nih.gov/pmc/articles/mid/NIHMS355909/

And here (which also answers your next question):

"Dietary linoleic acid elevates endogenous 2-arachidonoylglycerol and anandamide in Atlantic salmon (Salmo salar L.) and mice, and induces weight gain and inflammation in mice"

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3548985/

"I see LA content in adipose tissue is going up - so is consumption - where did you see that it 'concentrates'?"

Above, and here, for starters:

"Three groups of 15 female pigs were fed diets containing 0.8%, 1.1%, or 1.8% linoleic acid from 20 to 35 kg followed by 1.0%, 1.2% or 1.4% linoleic acid respectively from 35 kg to slaughter at 85 kg live-weight.... The mean proportions of linoleic acid in the backfat lipids were 8.6%, 11.0%, and 13.9% respectively as the amount of the diet increased. There was a significant correlation between the concentration of linoleic acid in the inner backfat lipid and P2 backfat thickness for those animals on the high and medium linoleic acid diets but not for those on the low diet...."

"The effect of dietary linoleic acid on the firmness of backfat in pigs of 85 kg live weight"

http://onlinelibrary.wiley.com/doi/10.1002/jsfa.2740370807/abstract

"It is curious that LA, one substance, mucks up so many things, yet is still "generally recognized as safe(gras)"."

Science moves incredibly slowly, medicine even more so. Most doctors follow "science" that's several decades out of date, if you're lucky, or that was never "science" in the first place, if you're not.

Passthecream said...

Just a passing thought in view of all this - you know I'm a fan of the non-sequitur, but If one wanted to minimize stored LA it seems that there are two contrary approaches. The precondition for both is to avoid consuming it. Then one approach is to only eat palmitic and stearic etc based fats; the other is to not eat any fats at all but to let your body manufacture palmitate from starch and let the resulting insulin levels drive it into your adipocytes. If you have existing stores of LA however you're probably better off minimising the insulin.


I also thought that some of those drugs that increase the number of adipocytes might help to keep any LA safely locked away if combined with the type of diet recommended by the ADA. /


C.

Anonymous said...

http://www.nature.com/nutd/journal/v6/n2/full/nutd20162a.html

I gave up being embarrassed by my idiot countrymen a while ago, but it seemed sort of apt to throw this in. Well, maybe not, but it has the word "mice" in it.

oi oi oi.

Sigh.

Peter said...

Spittin, it's just cringe-making. But Aussies are not really any worse than many other places......

Peter

Pass, yes, if you already actually have cancer you certainly don't want to spill your omega 6s.

Passthecream said...

Chips, it's not even up-to-date with what they teach the paramedics here about diabetes. Amazing that they let these people loose in a hospital, let them have access to the hand basins and bunsen burners etc

C.

karl said...

They call it low carb - but has a bunch of sugar.. (10% by weight )

http://www.nature.com/nutd/journal/v6/n2/full/nutd20162a.html

They don't say who made the diets - but looking at the 'supplementary info' the format suggests they come from different companies.. and the control diet doesn't list sugar - but the low-carb one does.. the diets are not listed in a way that one can compare - and if I read this correctly the control diet has no sugar..

This is a long way from science.

R Cobb said...

What do you think about the conclusion of this paper that Stearic Acid is less well absorbed and excreted at higher rates? Does this explain the lower metabolic rate? And is there something to the difference in way it oleic vs stearic acid are absorbed that would create this effect?

Peter said...

The stearic acid is very interesting. Poor fat absorption, lowered metabolic rate, massively improved glucose control. Even if used as a rescue diet once diabetes was established. There's a lot to consider here. If stearic acid was a marketable drug we'd be hearing its marvels trumpeted from the rooftops. Interestingly the Aussie idiot of the NZO mouse infamy used stearic acid along side table sugar to injure his rodents. Topical. It certainly helps db/db mice, so long as they skip the sucrose I suspect.

Peter

R Cobb said...

I assume that the effects gained by virtue of higher excretion of stearic acid are more complicated than this but do you think this is simply benefits of calorie restriction?

Peter said...

No, that seems unlikely, they could have just eaten more. One of two things seems more probable. First would be that stearic acid induces insulin resistance in adipocytes, second is that they mice are unwell in some way. I suspect the former and you could probably have done it with butter too...

Peter

Passthecream said...

Without getting too Lustig about it this article has some interesting thoughts abouts rats fructose uric acid and i.r.

http://m.diabetes.diabetesjournals.org/content/62/10/3307.full

Rattus said...

"The stearic acid is very interesting. Poor fat absorption, lowered metabolic rate, massively improved glucose control."

Is lowered metabolic rate a good thing?

Puddleg said...

@Aaron,

FFAs don't always correlate to dietary fats. E.g., eat pure fat, no insulin response - even later when FFAs rise. But inject FFAs - insulin response. There are factors modifying the response to dietary fat that mean some effects of pure FFAs are not relevant when considering it, yet others are.

@Tucker, it seems to me the mitochondrial benefit of EFA restriction is only going to be seen at very low intakes (<2% or <3%) and won't account for differences when control diets are "adequate" in LA.

Passthecream said...

George, there was one commenter here a while ago who was making fatty acids from triglycerides and consuming them with interesting results ie make the fat into soap, precipitate the glycerol and separate it, then turn the soap into pure fatty acids. Have you any references to the effects of those as dietary inputs?


C.

Passthecream said...

I think that should be 'precipitate the soap etc etc'. I need to brush up on my kitchen chemistry.

Tucker Goodrich said...

"@Tucker, it seems to me the mitochondrial benefit of EFA restriction is only going to be seen at very low intakes (<2% or <3%) and won't account for differences when control diets are "adequate" in LA."

I think that's right. This paper (abstract only) makes that point in pigs.

"We also found that traces of hydroperoxides and a high concentration of the target unsaturated fatty acid (LA) needs to be present in a fatty acid mixture before the quasi-lipoxygenase activity of Cyt c becomes apparent."

"Effect of cytochrome c on the linoleic acid–degrading activity of porcine leukocyte 12-lipoxygenase"

http://europepmc.org/abstract/MED/10802222

So what's "low" and what's "adequate"? If the "adequate" level causes pathological changes, then that level should actually be considered "too high". I suspect what you characterize as "low" is actually "adequate" and "normal".

That's also the level one finds in animals that are well-adapted to consuming high amounts of LA in their natural diet.

Puddleg said...

One adaptation to the consumption of high amounts of LA is its rapid conversion to cholesterol and saturated fat.

Oh the irony.

https://www.dropbox.com/s/gpt3qhxa7i10rl4/cunnane2003%20%28paradigm%29.pdf?dl=0

Puddleg said...

@ Passthecream

This sort of thing?
http://www.ajcn.org/cgi/pmidlookup?view=long&pmid=11010930

Almost certainly applies to TG fats as well.

Passthecream said...

Lovely paper George. I need to digest it several more times before i can make sufficient de novo understanding from it. I wonder if there is a market for broccoli oil?

karl said...

@ George Henderson

re: Paradigm link about EFA
Hadn't seen this - good to see someone else figured out the topic was extremely over simplified.

There is an associated mantra about "balancing O-3 with 0-6" - My take is that it is entirely possible that besides the LA => AA pathway there might be separate problems with excess LA - Protons: FADH2:NADH ratios and other pathways that produce things like 4-hydroxynonenal - balancing may help - but sure seems prudent to limit intake of LA to something close to the 1960's levels.


Re: "This sort of thing:"
Funny - just read that paper - Might want to point out that fatty acids can be oxidized in more than one way - and some of them (LA) can leave us with stuff like 4-hydroxynonenal - oxLDL

Food sources:
I was reviewing some of the low-carb food products the other day - (wheat products particularly) I saw small low-carb tortillas with 3G of PUFA each. (Wheat with LA Belly? ) Looks like most people get huge dosages in chicken and chips (wheat and corn coated with LA (CIAB)). (If nothing else - wheat and corn are going to be hard to separate out of epidemiological data from LA )

See - fatty acid table

Know thy enemy?

It struck me that Stephans old graph suggests that the amount of LA in human fat has increased in magnitude similar to the amount of total excess fat people carry. Is this just a coincidence? Of course not proof that LA is what is making people fat - but it sure demands more attention than it has gotten.

Imagine - what if we could remove the excess LA people carry - would we still have a obesity pandemic?

Is there something about LA that causes it to be retained in preference to other fatty acids?

Passthecream said...

'that the amount of LA in human fat has increased in magnitude similar to the amount of total excess fat people carry.'

After reading the 'essential' paper from George I was going to suggest that the rapid burning, converting or storing of LA was remimiscent of the way fructose is handled. Not literally but in the 'get rid of it quick' sense ie you don't want it hanging around loose.




Tucker Goodrich said...

"...the rapid burning, converting or storing of LA remimiscent of the way fructose is handled...."

In some respects, in others not so much.

We read a lot about "oxidative damage" and the importance of anti-oxidants to help the body deal with oxidative damage. It's involved in every aspect of the metabolic syndrome (which includes some types of cancer, Alzheimer's, ad nauseum).

The oxidative damage referred to is the result of the fact that LA is preferentially incorporated into the mitochondria, where it alters the fundamental way they work, generating that oxidative damage. The primary marker for oxidative damage is a chemical, 4-HNE, which is only generated from LA or AA. So 4-HNE is a marker for excess, toxic, LA consumption.

So the next time you see "oxidative damage", replace it with "LA poisoning", and see where that takes you.

It's far more sinister than fructose, which, in the absence of oxidative damage, doesn't seem to be harmful at all.

Passthecream said...

'the fact that LA is preferentially incorporated into the mitochondria, '

But why? Im certain this involves another one of those J curves ie not to little, not too much,just right.

Problem 10 in Cunnane2003 - some la is synthesized from 16 chain fa's. So that is not de novo synthesis but synthesis nonetheless. Again why?

Passthecream said...

Sorry that's item 10, problem 8.

Tucker Goodrich said...

"'the fact that LA is preferentially incorporated into the mitochondria, '

"But why?"

The only explanation I've been able to find is, "we don't know". There's still a lot going on in the mitochondria that's not understood. We do know that the membrane containing LA in the mitochondria, cardiolipin, is created using whatever random fatty acid is nearby, and can work just fine w/ other fatty acids (without producing the oxidation), yet rapidly replaces those other fatty acids with LA when given the chance. (Except in the brain: LA is largely excluded from the brain.)

"Im certain this involves another one of those J curves ie not to little, not too much,just right."

Agreed. "just right" is likely in the neighborhood of 1-2% E, not 7-15% E, as in the Modern American Diet.

karl said...

What if we look at why LA is preferentially stored in adipose tissue first?

Let us do sort of a thought simulation(thought experiments are an oxymoron) - lets go back to Petro's protons.

Someone eats a meal particularly high in LA - some of the LA enters our adipocyte - this adipocyte needs ATP - burns some of the available FA - high in LA and thus induces inappropriate insulin sensitivity - increasing the amount of FA uptake exactly when the ratio of LA is particularly high. So what gets stored over various meals has a high ratio of LA.

Now - during a fast - the body needs energy - LPL starts it thing - the adipocytes that contain the most LA are going to again become the most inappropriately insulin sensitive - slowing the release of FA - particularly from the cells with high LA content. Might really have to do a long fast to flush out the LA. (So could fasting increase LA => AA?)

,.,.,
Now if we are burning LA we produce fewer mitochondria - less turnover. Not sure how this effects incorporation of LA into mitochondria, but it is one place to look. The lipids in cell membranes tend to have PUFAs as part of the Phospholipid bilayer. These PUFAs can increase permeability of the membrane - see:

https://en.wikipedia.org/wiki/Lipid_bilayer#Phases_and_phase_transitions

Mitochondria may need this permeability thus select for PUFA's & MUFA's

Membrane biology is tied to immune function and effected by PUFA's... see

http://ajcn.nutrition.org/content/84/6/1277.long

Changing the ratio of O-3(long chain?) and o-6 may have consequences - even with major histocompatibility complex (MHC) my take is balancing the ratio is only a band-aid - we probably want levels that we were likely to evolved to use.

Tucker Goodrich said...

"...we probably want levels that we were likely to evolved to use."

Not "probably":

"Higher intake of specific types of fat--including vegetable, monounsaturated, and polyunsaturated fats and linoleic acid--rather than total fat intake may be associated with a greater risk for advanced AMD. Diets high in omega-3 fatty acids and fish were inversely associated with risk for AMD when intake of linoleic acid was low."

"..."Age-related macular degeneration (AMD) is the most common cause of legal blindness of elderly people in the world...."

http://yelling-stop.blogspot.com/2011/02/linoleic-acid-and-blindness.html

Therefore, you can re-write that to read "excess LA consumption is the most common cause of legal blindness"...

Passthecream said...

Karl 'Someone eats a meal particularly high in LA - some of the LA enters our adipocyte - this adipocyte needs ATP - burns some of the available FA - high in LA '


I wonder if the location of the fat cell matters? They tend to be thought of as outermost but not all are. Core fats in land animals where the local temps are higher are more saturated whereas peripheral fats are less so eg the canonical boot polish, neatsfoot oil which used to be rendered from cowlegs, has a much lower sat fat content. (but which ufa?) Likewise the fats of sea mammals being less saturated etc.


C

Motorway said...

Plasma Lipid Fatty Acids During Fasting
Am J Clin Nutr 1963

https://www.dropbox.com/s/a5lapueikmav9ui/Plasma%20Lipid%20Fatty%20Acids%20During%20Fasting.pdf?dl=0

Passthecream said...

Another LA vs general nastiness paper, sorry if this has come up before but it looked too good to ignore.

http://m.diabetes.diabetesjournals.org/content/54/5/1506.long?view=long&pmid=15855339


Is the LA level high in T2d for the reasons you're discussing here ie dietary plus storage, or ???

Tucker Goodrich said...

@Passthecream: "Is the LA level high in T2d for the reasons you're discussing here ie dietary plus storage, or ??? "

As I'm sitting here drinking my coffee w/ whipping cream (one of the best things ever)...

I did this post a while back, one of the things they discuss is the correlation between the LA metabolites they're looking into and T2DM. So yes. 4-HNE is produced by the either carb-induced or self-oxidation of LA in the mitochondria. 4-HNE is toxic, full stop. It's not the only toxic LA metabolite, there's also acrolein, which is apparently much more toxic, but most of what I could find was about 4-HNE.

http://yelling-stop.blogspot.com/2016/02/the-cause-of-metabolic-syndrome-excess.html

So, for T2DM:

"The Lipid Peroxidation By-Product 4-Hydroxy-2-Nonenal (4-HNE) Induces Insulin Resistance in Skeletal Muscle through Both Carbonyl and Oxidative Stress"
http://press.endocrine.org/doi/abs/10.1210/en.2011-1957#sthash.ZiwZ2AyH.dpuf

Unknown said...

Thanks tucker!

Unknown said...

I'd love to have your views on this
A low-carbohydrate high-fat diet increases weight gain and does not improve glucose tolerance, insulin secretion or β-cell mass in NZO mice


B J Lamont, M F Waters and S Andrikopoulos

http://www.nature.com/nutd/journal/v6/n2/full/nutd20162a.html#bib15

Passthecream said...

There was some derisory comment above. George dealt with it very neatly at his 'hopefulgeranium' blogspot.

Tucker Goodrich said...



"I'd love to have your views on this"

LOL. Everything is wrong w/ that study. 6% sucrose isn't "paleo", for starters. Those mice also get fat regardless of what you feed them.

See here:

"Paleo diet fattening?"
http://www.marksdailyapple.com/dear-mark-paleo-diet-fattening/#axzz410qBU2RW

and here:

"Of mice and men, again"
http://www.fathead-movie.com/index.php/2016/02/22/of-mice-and-men-again/

There's this.

"Campaign to Have “Paleo” Mouse Study Retracted"
http://www.dietdoctor.com/campaign-to-have-paleo-mouse-study-retracted

Feinman's a biochemist, who's published a bit on these topics:
https://www.facebook.com/richard.feinman.7/posts/959579280793676

That should cover it. :)

karl said...

@Topaz Windswift

Don't confuse that paper with real science - the important information is hidden away in the supplementary information.

If you look at the dietary contents - the format shows that these are not even from the same company - using differing feed lots prevents one from having a single variable(one of the things you see in real science).

There is no analysis of the amount of LA in the diets. It is well known that LA + sugar makes mice fat. This paper should not have been published - should be retracted.

(There are two basic forms of science papers - and they really don't mix - one is stamp-collecting - the collection of data from which one might infer a hypothesis - the other is experimental science - where one tries to test a hypothesis - and that requires single variable experiments - which this failed to even come close to. ).

The real question is why was it published? What possible motivation do they have to simply muddy the water? Who is getting money? Where is it coming from? Are PETA people involved?

Tucker Goodrich said...

"The real question is why was it published? What possible motivation do they have to simply muddy the water? Who is getting money? Where is it coming from?"

See his full bio at the link below, but here are some relevant bits:

"This research has led to the hypothesis that increased insulin secretory demand may be a mechanism that contributes to diabetes and that strategies that promote metabolic deceleration may be beneficial."

Well, just lowering insulin demand through a simple dietary manipulation would pretty much kill that line of research...

"A/Professor Andrikopoulos is the current President of the Australian Diabetes Society."

http://www.findanexpert.unimelb.edu.au/display/person14408

Leo said...

Hi, I have a question that might seem stupid because Peter might have already answered it. I can't seem to find it even though I am avid reader of his blog. Does physiological insulin resistance cause increased insulin levels ?
Thank you

Tucker Goodrich said...

@Leo: "Does physiological insulin resistance cause increased insulin levels ?"

No. T2DM insulin resistance does, insulin goes down on LC, which causes physiological IR.

Passthecream said...

'....current President of the Australian Diabetes Society."

AKA SNAFU.

Galina L. said...

I hope it is not complitely off topic guys, but I just wanted to share some article from Russion language news outlet translated into English https://translate.google.com/translate?hl=en&sl=ru&u=http://www.svoboda.org/&prev=search about the the substance just added to the WADA list of banned substances. The unusual thing - it was initially created with the purpose to utilize a rocket fuel.
" Meldonium - an international name of the drug, which is produced in Latvia. Its trade name "Mildronat". It was created by the Institute of Organic Synthesis in conjunction with the Second Moscow Medical Institute to help patients with heart disease to survive the hard times when, for whatever reason, they have deteriorating blood supply to the heart muscle. Synthetic substance - a copy of the natural substance with a very small change, one carbon atom is replaced by a nitrogen atom. A natural substance called gammabutirobetain it in our body is a precursor of carnitine, and that, in turn, - fatty acids through the mitochondrial membrane transporter, there is the formation of the cell, to the place of their oxidation, that is, to generate energy. We assumed that this mechanism only works if there is enough oxygen when the heart can oxidize all fatty acids, which it supplied with blood. Once the oxygen starts to miss, these oxidized fats simply accumulate inside the cell. Fatty acids, activated using carnitine like detergent, i.e. soap. Since all the cell membranes are composed of lipids, i.e. fat base, they are dissolved, and a cell is destroyed. The idea was that if we slow down biosynthesis of carnitine, and will contribute to its removal from the body, then the lack of oxygen, or ischemia, the heart muscle does not die. It worked. there are now two opposing camps in the world: some argue that it is necessary to use carnitine, it promotes energy production, while others say that it is good when a sufficient amount of oxygen, and then brings harm.The medicine we first booked in the Soviet Union in 1984. The drug is one of the most popular cardiovascular agents in the former Soviet Union, and there are two reasons. Firstly, this product has virtually no side effects, it can be used for years, and the sick and healthy, everyone is state of crisis, stress overload. Secondly, we have created the world's first and so far only with the action of the drug mechanism that helps millions of people to survive in an environment where their heart should have been killed. And not only the heart. The peculiarity of its action is that energy production in muscle cells from the combustion is switched from burning fat to burning sugars. And when we burn sugar, we save oxygen, but spend carbon."

karl said...

@Galina -
You are talking about Meldonium - https://en.wikipedia.org/wiki/Meldonium

a fatty acid oxidation inhibitor ...

Interesting Rat paper
http://onlinelibrary.wiley.com/doi/10.1111/j.1476-5381.2009.00319.x/full

Why isn't this drug on the USA market?

http://www.karger.com/Article/Abstract/210015

https://jakegshelley.wordpress.com/2016/03/03/what-is-melodoniummildronate/

Here is the mind numbing bit - as Melduonium got banned - why not metformin as well?

My hunch is it does its good bit by reducing oxLDL -
http://europepmc.org/abstract/med/25177814


There are safety issues and a lot of research that needs to be done to bring this to market in the western world - might not happen due to politics.

There are other ways to reduce oxLDL - I don't eat much LA and use a few other dietary bits that have gotten my level down to about 5-percentile of the general public.

Galina L. said...

I just thought you guys may find the article interesting. There are some interesting meds in Eastern Europe, not available in US for legal reasons. It looks like most Eastern European sportsmen were on it. I personally found it interesting that the drug researchers thought than the inhibition of L-carnitine biosynthesis and transportation was cardioprotective. Here in US it is a beloved bodybuilders supplement.

Passthecream said...

I see that sales of meldonium have shot through the roof since it was banned!

R Cobb said...

Miss the posts Peter. off topic perhaps but what about K2 (MK4 and MK7 respectively) and D3 assisting calcium absorption?

Peter said...

R Cobb,

Not been there. There is a limit to what subjects drive my thought train...

Peter