Misrepresentation of Catalytic Activity of LIPT1

[Devlin-Moyer]

Background

The changes proposed in #685 depend on the ones proposed in this issue

LIPT1 (ENSG00000144182) is currently associated with four reactions:

ID	Reaction	Genes
MAR06398	ATP [c] + H+ [c] + lipoic acid [c] --> lipoyl-AMP [c] + PPi [c]	LIPT1
MAR06399	apoA1 [c] + lipoyl-AMP [c] --> [protein]-N6-(lipoyl)lysine [c] + AMP [c] + H+ [c]	LIPT1
MAR01088	CoA [c] + H+ [c] + N-acetyl-LTE4 [c] <=> acetyl-CoA [c] + leukotriene E4 [c]	LIPT1 or (many other genes)
MAR01091	CoA [n] + H+ [n] + N-acetyl-LTE4 [n] <=> acetyl-CoA [n] + leukotriene E4 [n]	LIPT1 or (many other genes)

Problems

• None of the references associated with MAR01088 or MAR01091 mention LIPT1, and I can't find any other papers that associate LIPT1 with leukotriene metabolism, so I believe that LIPT1 should be removed from the GPRs of both reactions.
• According to this paper, LIPT1 is not capable of adenylating free lipoic acid or using lipoyl-AMP to lipoylate proteins; furthermore, no human enzyme is capable of carrying out the reactions represented by MAR06398 and MAR06399 -- humans cannot ligate free lipoic acid to proteins at all -- so both reactions should be removed entirely.
• That same paper shows that LIPT1 is instead capable of transfering lipoyl moeities from GCSH (where it is synthesized from octanoyl moities bound to GCSH) to subunits of the 2-ketoacid dehydrogenase complexes (i.e. DLAT, DLST, and DBT).
  • There is no existing Human-GEM reaction that represents this transfer of lipoyl moeities, but I think this can be somewhat realistically represented by creating a new reaction that turns [protein]-N6-(lipoyl)lysine (MAM00209c) into lipoamide (MAM02393m) and associating LIPT1 with that reaction. I know that converts a metabolite in [c] directly into a metabolite in [m], but since Various Problems With Lipoic Acid Biosynthesis #685 would make all the changes necessary to make [protein]-N6-(lipoyl)lysine able to be produced directly in [m], for now I'm just proposing we ignore this issue and replace MAM00209c with a new mitochondrial version in this reaction in Various Problems With Lipoic Acid Biosynthesis #685.
  • Creating that new rection would also solve the related problem that lipoamide (MAM02393m) represents the role of lipoic acid as a cofactor for GCSH and the 2-ketoacid dehydrogenase complexes (in MAR04599, MAR06413, MAR06416, MAR06419, MAR06421, MAR08433, and MAR20069), but is disconnected from the lipoic acid biosynthesis reaction MAR06403 (5 H+ [c] + 7 NADPH [c] + 2 PAPS [c] + 2 SAM [c] + [protein]-N6-(octanoyl)lysine [c] ⇒ 2 5-deoxyadenosine [c] + 6 H2O [c] + 7 NADP+ [c] + 2 PAP [c] + [protein]-N6-(lipoyl)lysine [c] + 2 methionine [c]), because MAR06403 produces "[protein]-N6-(lipoyl)lysine" (MAM00209c), which cannot be made into lipoamide (MAM02393m).
  • Treating [protein]-N6-(lipoyl)lysine as lipoylated GCSH and lipoamide as lipoylated DLAT/DLST/DBT would also be a step towards enabling Human-GEM to accurately simulate the metabolic consequences of defective LIPT1 in humans described in that same paper, namely that catalytic activity of GCSH is unaffected, but the catalytic activities of all the 2-ketoacid dehydrogenase complexes are severely impaired. Fully accomplishing that would also require:
    • Replacing lipoamide (MAM02393m) with [protein]-N6-(lipoyl)lysine (MAM00209m) in MAR08433 (H+ [m] + glycine [m] + lipoamide [m] ⇒ CO2 [m] + S-aminomethyldihydrolipoamide [m]) and
    • Replacing dihydrolipoamide (MAM01701m) with [protein]-N6-(dihydrolipoyl)lysine (MAM00208m) in MAR08434 (S-aminomethyldihydrolipoamide [m] + THF [m] ⇒ 5,10-methylene-THF [m] + H+ [m] + NH3 [m] + dihydrolipoamide [m])
  • Those changes are slightly complicated by the fact that neither MAM00209m nor MAM00208m exist at the moment, as I mentioned above. So once again, I'm just proposing that MAR08433 and MAR0844 use the existing MAM00209c and MAM00208c metabolites, even though they're in [c] and the rest of the reaction happens in [m], and having Various Problems With Lipoic Acid Biosynthesis #685 replace them with new mitochondrial versions after making all the other necessary changes to make them producible in [m].
• On the topic of lipoic acid biosynthesis happening in the mitochondria of human cells, I think MAR11361 (H+ [i] + lipoamide [c] ⇒ H+ [m] + lipoamide [m]) should be either be made reversible or irreversible in the opposite direction (i.e. from [m] to [c]).
  • I also think the protons should be removed from MAR11361, since the lipoamide metabolites (MAM02393) represent lipoic acid conjugated to a lysine residue on a protein, rather than free lipoic acid (MAM02394), and all proteins that human cells lipoylate are strictly mitochondrial proteins (see these papers), so this transport reaction doesn't represent a real transport reaction, and the only reason to keep this reaction at all would be to keep the mitochondrial lipoamide metabolite connected to its exchange reaction (MAR11345).
  • The same issues also apply to MAR06408 (H+ [i] + dihydrolipoamide [c] ⇒ H+ [m] + dihydrolipoamide [m]). However, since this is the only reaction that MAM01701c participates in, and it definitely doesn't represent real-world biology, I think both MAR06408 and MAM01701c should be removed.

Proposed Changes

• Remove LIPT1 (ENSG00000144182) from the GPRs of MAR01088 and MAR01091
• Remove MAR06398, MAR06399, and MAM02398c (lipoyl-AMP)
• Create new reaction MAM00209c -> MAM02393m, GPR: ENSG00000144182, references: PMID:29987032
• Replace MAM02393m with MAM00209c in MAR08433
• Replace MAM01701m with MAM00208c in MAR08434
• Remove MAM02039c and MAM02039e MAR11346
• Remove MAM02039i and MAM02039m from MAR11361
• Make MAR11361 reversible
• Remove MAR06408 and MAM01701c

[haowang-bioinfo]

Overall it's hard for me to under this issue, it feels like filling the gap between #682 and #685. Can you please somehow improve the text and make it easier to understand.

In particular, you claim that MAR06408 should be removed but without evidence. If "dihydrolipoamide (MAM01701c) can't be produced by any other reactions", then which dihydrolipoamide-producing reaction is correct and should be kept?

[Devlin-Moyer]

I have tried to rephrase and rearrange the ideas in the original comment to be easier to follow; let me know if it makes more sense now.

I initially wrote all of these issues related to lipoic acid metabolism (#682, this issue, #684, and #685) as one very long and complicated issue, and then tried to figure out how to separate them out into smaller, more digestible issues, but it was difficult to do in a way that didn't seem to make an already-confusing situation even more confusing. So I might not have included all the necessary context to make sense of what's going on here in each of these individual issues, since they're all kind of jumbled together in my head.

[haowang-bioinfo]

thanks for improving the text that is better now

Given the provided citation and explanation, I don't see a reason to hold this up, please go ahead to implementation

[Devlin-Moyer]

Fixed by #714