Wednesday, February 21, 2024

Electrochemistry (2) Superoxide

I keep trying to get back to simple things like weight loss/gain/insulin/LA but the electrochemistry won't leave me alone.

Someone, possibly Jaromir (mct4health) or Brad Marshall, pointed out that the pyruvate dehydrogenase complex (PDC) is a significant source of ROS.

So I was rootling around through papers on PDC and read, in a now-lost paper, that the decarboxylase component of the complex converted pyruvate to acetate but that a similar effect could be achieved by reacting isolated pyruvate with a source of free radicals to give acetate and carbon dioxide. It was probably H2O2 they were working with. The decarboxylation is a lot quicker with the enzyme but a chemical source of ROS will get the job done.

Anyway, the significance only dawned on me weeks later and I hadn't saved the paper. It's gone.

There are, it turns out, many papers looking at pyruvate decarboxylation using H2O2, other ROS or RNS. It's a generic trait. I went through this first paper in some detail:


Here's a simplified version of their Figure 1 which is the basic reaction. An electron from the H2O2 attacks the alpha carbon of the pyruvate to give the completely unstable 2-hydroperoxy-2-hydroxypropanoate which spontaneously degrades to acetate and CO2:










"The reaction of pyruvate and H2O2 produces acetate, carbon dioxide (CO2) and water; its transition intermediate has been recently confirmed..."

Essentially the H2O2 is providing an electron which destabilises the alpha carbonyl group and the molecule then rearranges itself in to the decarboxylation products.

Now look at Nick Lane's slides in the last post. First we need this bit:











in which CO2 accepts a geochemical derived electron to become a bound CO molecule and a bound oxygen anion. This lets us re write this line






(in which the activated CO2 derivatives are highlighted with red ovals) in to the much simpler form of:










Ultimately we can convert an acetyl group and  CO2 to pyruvate using a geochemical electron from the origin of life scenario.

We can do the exact opposite and convert pyruvate to acetate and CO2, again using a donated electron, this time from H2O2.

Pyruvate is stable. You can buy it in tablet form as a metabolic nutritional "supplement". It won't convert to vinegar in the jar. If you were to carbonate a bottle of vinegar it would stay as "fizzy vinegar" long term without converting to pyruvate. Exactly as you could mix H2 and CO2 in aqueous solution and they would remain stable without a hint of formate formation. Until you add an electron.

Then the reaction moves. The change in energy is quite small and you could push the reaction one way or the other way depending on the relative concentrations of acetate, CO2 or pyruvate. The electron is what makes it happen, in either direction.

This is not unique to the reaction of pyruvate with hydrogen peroxide.

A little more grubbing around suggests that peroxinitrite is even better:

"... oxygen consumption studies confirmed that peroxynitrite mediates the decarboxylation of pyruvate to free radical intermediates. Comparing the yields of acetate and free radicals estimated from the oxygen uptake studies, it is concluded that pyruvate is oxidized by both one- and two-electron oxidation pathways..."

No one seems to have looked at superoxide but you can bet your bottom dollar it does the same. In fact, for the similar reaction of alpha ketoglutarate to succinate, superoxide will do the job:

The Tricarboxylic Acid Cycle, an Ancient Metabolic Network with a Novel Twist

"The significance of KG [alpha ketoglutarate], a metabolite that can detoxify H2O2 and O2- with the concomitant formation of succinate in this process is also discussed."

So what?

The interconversion of metabolites of the TCA appears to be quite possible mediated by nothing other than the availability of spare electrons and the relative concentrations of the core reactants. From Nick Lane's doodles the essential component for the actual dissipation of energy in the sections of the TCA at the origin of life are actually mediated by the availability of electrons. No enzymes required.

The availability of electrons from geochemical sources is what drove the conversion of COand protons to core metabolites of the essential parts of the TCA. No electrons, no conversion of anything in to anything else.

Today the electrons come from all sorts of places, reduced ferredoxin, NADH, FADH2 etc. But originally, in the beginning, I suspect that the first source of free electrons to replace the geochemical source might have been superoxide.

We know that LUCA used oxygen despite the anoxic conditions of the early Earth. She had superoxide dismutase, catalase and a precursor of haemoglobin which stored (precious) oxygen. So LUCA actively controlled oxygen availability, superoxide dismutation and hydrogen peroxide catabolism to oxygen and water. Presumably for a very specific purpose.

All that is needed to convert pyruvate to acetate is a free electron. Electrons are continuously being placed on to ferredoxin by our prototypical membrane bound hydrogenase. Once the cellular supply of ferredoxin has been largely converted to reduced ferredoxin then a) trying to move more electrons to ferredoxin gets harder and b) there is enough reduced ferredoxin to be worth activating metabolism and growth c) this can be initiated by transferring electrons on to stored oxygen (possibly derived from radiolysis or photolysis of water) and allow the superoxide generated to perform the process of converting one metabolite to another.

Ferredoxin (and even ATP, once evolved) could then be used for the more obscure reactions that might require more complicated metabolite interconversions, possibly not amenable to simple ROS mediated methods.

We are still using superoxide today, from reverse electron transport through complex I (directly comparable to that of the prototypical hydrogenase), as the core control of metabolism (pax NOX enzymes). The above speculative narrative would start with superoxide as the actual catalyst at first, one step removed from the origin of life, rather than as a signal. It will be interesting to see whether the modern production of superoxide has any residual enzymic function per se or whether it is now merely a signal/mediator, working through modification of functional sulphydryl groups on proteins which now perform their essential redox catalysis deep within their active sites.

I find it a fascinating idea.

Peter


Addendum.  These papers were formative of the above ideas but are a bit like excess baggage to the core principle. I enjoyed them so here they are:

You can do other interesting things with sources of electrons and core members of the modern TCA. If you would like to decarboxylate oxaloacetate to malonate just add ROS:

Malonate as a ROS product is associated with pyruvate carboxylase activity in acute myeloid leukaemia cells

"We have shown that malonate can be formed from oxaloacetate by chemical conversion under the influence of hydrogen peroxide..."

The ROS in this paper which convert oxaloacetate to malonate appears to come from the pyruvate carboxylase enzyme. This is their previous paper which they cited above:

Metabolomic Profiling of Drug Responses in Acute Myeloid Leukaemia Cell Lines

"However, in vitro treatment of oxaloacetate and pyruvate confirm that these conversions are in fact induced by hydrogen peroxide as shown in Figure S4."

"In addition, previous reports have established that ROS mediate the non-enzymatic conversions including that of α-ketoglutarate into succinate [24]-[26]."

This is the alpha-ketoglucarate paper:

Nonezymatic formation of succinate in mitochondria under oxidative stress

"The occurrence of nonenzymatic oxidation of KGL in mitochondria was established by an increase in the CO2 and succinate levels in the presence of the oxidants and inhibitors of enzymatic oxidation. H2O2 and menadione as an inductor of reactive oxygen species (ROS) caused the formation of CO2 in the presence of sodium azide and the production of succinate, fumarate, and malate in the presence of rotenone. These substrates were also formed from KGL when mitochondria were incubated with tert-BuOOH at concentrations that completely inhibit KGDH. The nonenzymatic oxidation of KGL can support the TCA cycle under oxidative stress..."

Okay, that will do!

16 comments:

Passthecream said...

Neato!

I was looking at the layout of CoenzymeA just now. All sorts of stuff in a weird mashup. It looks a like a cobbled together version of things that will push electrons around, a portable substrate.



Passthecream said...

Hmm, yes, obviously

"coenzyme A is a highly versatile molecule, serving metabolic functions in both the anabolic and catabolic pathways. Acetyl-CoA is utilised in the post-translational regulation and allosteric regulation of pyruvate dehydrogenase and carboxylase to maintain and support the partition of pyruvate synthesis and degradation"


And since it is everywhere I guess it also comes via Luca?

Peter said...

Pass, it looks like thioacetate might have been what preceded acetyl CoA. The CoA moiety might be a cobbled together version of the -SH of thioacetate which is stable in aqueous solution (thioacetate isn’t). And the rapid conversion of thioacetate to acetyl phosphate would provide the original phosphorylating agent, to be improved on by ATP.

Nick Lane, of course https://pubmed.ncbi.nlm.nih.gov/29502283/

Peter

karl said...

Trying to think of this on the chemical basis - PH is the level of H+ ions. This is sort of the other hand of free electrons. Considering buffers..

Trying to get to a base understanding of how ROS and PH interact. I don't think we can think of free electrons without looking at ROS at the same time.

,.,.
So if F:N of greater than 0.48 produces ROS -

Increasing ROS causes:
- decrease in MT
- increase in adipose insulin sensitivity(gain fat)

What I'm not sure about is if the ROS signal effects insulin sensitivity the same way in different tissues - liver/adipose/muscle ? Likely..

The other bit - to me, this appears to be a VERY ancient signal - Is sensitivity a bigger control than insulin?

,.,.
One other thing a bit OT - I'm suspecting that there is some kind of cumulative damage that makes people(subset?) less and less able to tolerate carbs in their diet. The question is what is doing the damage? PUFA/toxins/? Which toxins?

I have to limit carbs to a very low level to maintain healthy weight - is this due to permanent damage or some exposure I'm unaware of?

karl said...

OT:
Book I want to buy - but blew my book budget this month..

Cancer as a Metabolic Disease: On the Origin, Management, and Prevention of Cancer


https://www.amazon.com/Cancer-Metabolic-Disease-Management-Prevention/dp/0470584920

Eric said...

Totally offtopic, but wanted to share this. How crazy can one individual be to want 217 Covid vaccinations? I didn't even know there were 8 different vaccines in the market (not at the same time, of course).
https://www.fau.eu/2024/03/05/news/research/researchers-investigate-immune-response-of-a-man-who-received-217-covid-vaccinations/
https://www.thelancet.com/journals/laninf/article/PIIS1473-3099(24)00134-8/fulltext

Eric said...

Karl, didn't read that but a sort of derivative: Tripping over the Truth by Travis Christofferson. It made for a compelling read.

We have a somewhat strange thing in Germany, Heilpraktiker (healing practitioners). Anyone with a training barely matching a nurse's and passing a government exam can treat patients. Usually, these practitioners will listen a lot and do physical therapy, meditation and mindfulness training, herbal preparations, homeopathy.

Well there was this guy who treated termininal cancer patients with 3 bromopyruvate, the exact substance recommended to suppress glucose. He treated many patients, and little is known if that lengthened survival or resulted in reversal, but one day he prepared an overdosed batch by some accident, and three patients died. He was tried and given a suspended sentence: https://freieheilpraktiker.com/infos-fuer-presse-politik/217-fall-brueggen-angeklageerhebung Note the court had a professor of forensic toxology as an expert witness who said the drug might actually achieve the aim of curing cancer but little was known, and they got him for being negligent in preparation, not for using an unvetted drug.

Sadly, there still don't seem to be any trials going on.

mct4health said...

Peter, that is interesting. This nonenzymatic processes can explain how elevated H2O2 stabilizes HIF-1alpha in normoxic condition by elevating succinate/malonate. There are so many things that can go wrong and elevate HIF-1a, how is it possible that we can be sometimes healthy?
Jaromir

mct4health said...

Peter, this nonezymatic processes perfectly explain how H2O2 can stabilize HIF-1alpha in normoxic conditions besides lack of acetyl-CoA. Thanks.
Jaromir

karl said...

@Eric

Over 250,000 people in the U.S. die each year because of medical errors, making it the third leading cause of death. Half of the approved drugs get pulled later due to safety.

Getting medical treatment is a bigger risk than the public is aware of.

The key bit the book is about - the Warburg effect - sort of works. Cancers usually have disfuctioning MT - so they use aerobic glycolysis thus need sugars. What Warburg didn't know, is they can also get fuel via glutamine. There is an antibiotic (DON) that blocks glutamine that got repurposed as an anti cancer agent. Looks like they can use low dose DON (high dose is nasty) - and a strict ketogenic diet and cancers - some thought to be untreatable - with some amazing results. I think this is a big breakthrough - but lots of money moves using the older treatments.

mct4health said...

Peter, this nonenzymatic processes how to get succinate by H2O2 nicely support HIF-1a switch by ROS. This mechanism I didn't know. Thanks.
Jaromir

mct4health said...

Peter, this nonenzymatic processes how to get succinate by H2O2 nicely support HIF-1a switch by ROS. This mechanism I didn't know. Thanks.
Jaromir

Passthecream said...

In a situation recapitulating the way that bacterial symbionts turned into mitchondria with their electron transfer equipment serving the host cell, the original host cells also had similar ETC equipment and you find it there even now. There are ETC components and accessories in the plasma membranes of eukaryotic cells. This can shift the focus of a mitochondrial approach to dysfunction based on Warburg towards the ideas of the NZ group who are researching cell surface oxygen dynamics related to that ETC version. Peter blogged about them some time back, a search might find it . They supposedly had some candidate drugs in the pipeline but I have not seen any reports.

Unfortunately I have lost CaveNewt's instructions for searching so I can't search for the instructions about searching ... ad infinitum.

In the Michael Levine/Nick Lane podcast where all sorts of fruitful ideas are bouncing around, one of Levine's is about cancer cells, how when a cell loses the connection to its local network --- eg liver ITO cells hang out together and seem to regulate each other --- when that regulation is lost the cells take up an independant and primeval existence in which the host organism of which they were previously a well controlled part suddenly becomes an endless supply of nutrients.

That is a horrifying thought.

I'd be looking for electric fields or drugs or whatever it takes to get those cells recruited back into some meaningful and sub-dominant network. Or dead.


FYI


https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1634775/#:~:text=Mitochondria%20originated%20by%20permanent%20enslavement,extracting%20energy%20for%20the%20host.

Passthecream said...

Got it!

https://high-fat-nutrition.blogspot.com/2019/01/cell-surface-oxygen-consumption-1.html?m=1

cavenewt said...

Passthecream: you beat me to it! I just turned up that exact post.

How to constrain a search to a particular website:
site:high-fat-nutrition.blogspot.com *insert search terms here*

No space character after "site:"
The space character after the domain name is important. Do not include asterisks. To search for an exact phrase, enclose it in quotes.

This is HTML code that I believe will work with most or all browsers.

cavenewt said...

karl & Eric, continuing the OT topic. After a cancer diagnosis in late 2019, I read the Christofferson book, in which the author was very taken by 3 bromopyruvate (Christofferson is a journalist to writes books on a lot of different subjects. They tend to be kind of shallow but very readable.) Of course I was interested in alternative treatments, and collected a number of resources about 3 bromopyruvate research, such as https://lww.com/pages/results.aspx?txtKeywords=bromopyruvate and http://dayspringcancerclinic.com/therapies/townsend-letter/

After Christofferson I moved on to Ravenous: Otto Warburg, the Nazis, and the Search for the Cancer-Diet Connection by Sam Apple (fascinating history); online content by Thomas Seyfried (like karl, I thought the book was too expensive); and currently some interesting research about fenbendazole and ivermectin being tested as cancer treatments. Re Seyfried here's an interesting online series that I haven't yet followed through on: http://www.tuitnutrition.com/2014/11/metabolic-theory-cancer-intro.html

Of course I was already low carb, but after diagnosis stoped eating commercial pork and chicken because of the PUFA content; PUFAs maybe tumorigenic. Still getting clean checkups after five years, cross fingers. Once you've been diagnosed, every little twinge screams "metastasis!" 😂