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. 2025 Jun;57(2-3):85-95.
doi: 10.1007/s10863-025-10053-2. Epub 2025 Feb 15.

Mitochondrial glutamic-oxaloacetic transaminase (GOT2) in the growth of C2C12 myoblasts

Ritu Som  1 Brian D Fink  1 Adam J Rauckhorst  2 Eric B Taylor  2 William I Sivitz  3
Affiliations

Mitochondrial glutamic-oxaloacetic transaminase (GOT2) in the growth of C2C12 myoblasts

Ritu Som et al. J Bioenerg Biomembr. 2025 Jun.

Abstract

Glutamine is well recognized as critical to the growth of most cell types. Within mitochondria glutamine is converted to glutamate by glutaminase. Oxaloacetate and glutamate then react to form alpha-ketoglutarate (α-KG) and aspartate catalyzed by glutamic-oxaloacetic transaminase (GOT2) or directly converted to α-KG by glutamate dehydrogenase (GDH). We investigated the role of GOT2 in mediating glutamate metabolism and cell growth in undifferentiated C2C12 cells. CRISPR mediated GOT2 knockout (KO) impaired cell growth, partially overcome by higher concentrations of glutamine. Mitochondrial respiration did not differ between KO and wildtype (WT) cells. Metabolite profiling showed that GOT2KO decreased aspartate by about 50% in KO versus WT cells. In contrast, α-KG increased. Metabolites reflecting the pentose phosphate pathway were significantly increased in KO cells. Metabolic pathway analyses revealed alteration of the TCA cycle, the pentose phosphate pathway, and amino acid metabolism. Glutamine 13C-tracing revealed decreased generation of aspartate, increased ribulose phosphate and evidence for reductive carboxylation of α-KG to isocitrate in KO cells. GDH expression was detected in C2C12 cells but did not differ between WT and GOT2KO mitochondria. GDH is not or barely expressed in adult muscle, however, we observed clear expression in pre-weanling mice. Cytosolic glutamic-oxaloacetic transaminase, GOT1, expression did not differ between GOT2KO and WT cells. In summary, GOT2 is necessary for glutamate flux and generation of downstream metabolites needed for the growth of C2C12 myoblasts. Although respiration did not differ, lack of aspartate and other compounds needed for cell proliferation may have been major factors impairing growth.

Keywords: Glutamate; Glutamate dehydrogenase; Glutamic oxaloacetic transaminase; Mitochondria; Myoblasts; Skeletal muscle.

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Conflict of interest statement

Declarations. Conflicts of interest: The authors declare no competing interests.

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