Dichloroacetate and thiamine improve survival and mitochondrial stress in a C. elegans model of dihydrolipoamide dehydrogenase deficiency
Chynna N. Broxton, … , Vernon E. Anderson, Marni J. Falk
Chynna N. Broxton, … , Vernon E. Anderson, Marni J. Falk
Published October 24, 2022
Citation Information: JCI Insight. 2022;7(20):e156222. https://doi.org/10.1172/jci.insight.156222.
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Research Article Genetics Metabolism

Dichloroacetate and thiamine improve survival and mitochondrial stress in a C. elegans model of dihydrolipoamide dehydrogenase deficiency

Abstract

Dihydrolipoamide dehydrogenase (DLD) deficiency is a recessive mitochondrial disorder caused by depletion of DLD from α-ketoacid dehydrogenase complexes. Caenorhabditis elegans animal models of DLD deficiency generated by graded feeding of dld-1(RNAi) revealed that full or partial reduction of DLD-1 expression recapitulated increased pyruvate levels typical of pyruvate dehydrogenase complex deficiency and significantly altered animal survival and health, with reductions in brood size, adult length, and neuromuscular function. DLD-1 deficiency dramatically increased mitochondrial unfolded protein stress response induction and adaptive mitochondrial proliferation. While ATP levels were reduced, respiratory chain enzyme activities and in vivo mitochondrial membrane potential were not significantly altered. DLD-1 depletion directly correlated with the induction of mitochondrial stress and impairment of worm growth and neuromuscular function. The safety and efficacy of dichloroacetate, thiamine, riboflavin, 5-aminoimidazole-4-carboxamide-1-β-d-ribofuranoside (AICAR), l-carnitine, and lipoic acid supplemental therapies empirically used for human DLD disease were objectively evaluated by life span and mitochondrial stress response studies. Only dichloroacetate and thiamine showed individual and synergistic therapeutic benefits. Collectively, these C. elegans dld-1(RNAi) animal model studies demonstrate the translational relevance of preclinical modeling of disease mechanisms and therapeutic candidates. Results suggest that clinical trials are warranted to evaluate the safety and efficacy of dichloroacetate and thiamine in human DLD disease.

Authors

Chynna N. Broxton, Prabhjot Kaur, Manuela Lavorato, Smruthi Ganesh, Rui Xiao, Neal D. Mathew, Eiko Nakamaru-Ogiso, Vernon E. Anderson, Marni J. Falk

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Figure 6

DCA and thiamine demonstrated significant benefit on mitochondrial stress and survival but not on pyruvate or lactate levels.

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DCA and thiamine demonstrated significant benefit on mitochondrial stres...
(A) Survival analysis compared 1:20 and full-dose dld‑1(RNAi) worms with those treated from L4 in 3 replicates with 25 mM DCA or 25 mM thiamine. Log-rank (Mantel-Cox) tests indicated both treatments significantly rescued the decreased survival of the partial knockdown (thiamine P < 0.05, HR = 0.49; DCA P < 0.001, HR = 0.48). Neither treatment affected the extended life span of full-dose dld‑1(RNAi). (B) Mitochondrial stress. Only 25 mM DCA (**P < 0.01), 25 mM thiamine (*P < 0.05), and 500 μM AICAR (***P < 0.001) significantly reduced UPRmt assayed by hsp6p:GFP fluorescence relative to dld-1(RNAi) knockdown worms analyzed by BioSorter. Significance was analyzed by 1-way ANOVA followed by Dunnett’s multiple comparisons. (C) DCA and thiamine significantly reduced UPRmt in 4 additional biological replicates; mean ± SEM shown. Significance was obtained by 1-way ANOVA followed by Tukey’s multiple tests (DCA alone, *P < 0.05; thiamine alone, *P < 0.05). Combination of DCA and thiamine resulted in significantly in the greatest reduction (****P < 0.0001), which was significantly greater than observed with either treatment alone: thiamine added to DCA (***P < 0.001) and DCA added to treatment with thiamine (**P < 0.01). (D) Pyruvate levels were determined in 4 replicates of 7 cohorts of 1,000 worms grown in parallel: N2 controls, N2 fed dld-1(RNAi), or 1:20 dld-1(RNAi) with either DCA or thiamine. Increased pyruvate was observed in dld-1(RNAi) knockdown worms (*P < 0.05), but neither DCA nor thiamine treatments resulted in a significant decrease. With the 1:20 dld-1(RNAi), the increase in pyruvate level was not significant and not significantly changed by DCA or thiamine. (E) Lactate levels decreased with dld-1(RNAi) treatment and were insignificantly changed with either drug. (F) Pyruvate/lactate ratio was significantly increased by dld-1(RNAi) knockdown but insignificantly reduced by either drug. Analyses for DF were a Student’s 2-tailed t test for the effect of the dld-1(RNAi) knockdown and 1-way ANOVA for the effect of the drugs.