Branched-chain α-amino acids (BCAAs) support protein synthesis and their oxidation is restrained by branched-chain α-keto acid dehydrogenase kinase (BCKDK). We previously observed that in the brains o Show more
Branched-chain α-amino acids (BCAAs) support protein synthesis and their oxidation is restrained by branched-chain α-keto acid dehydrogenase kinase (BCKDK). We previously observed that in the brains of Bckdk knockout (KO) mice, BCAAs fall while glutamate is preserved and other amino acids rise. We asked why this profile emerges and how it affects skeletal muscle versus brain during nutrient stress. Motor behavior, protein synthesis and nutrient signaling were compared in the skeletal muscle and brains of wildtype (WT) and Bckdk KO male mice. In addition, nitrogen delivery into brain from BCAAs was assessed using stable isotope tracing and mass spectrometry imaging. Bckdk KO showed normal grip strength but poor beam traversal and reduced wheel running during protein restriction. In skeletal muscle, leucine or protein-feeding stimulated and fasting suppressed mechanistic target of rapamycin complex 1 (mTORC1) signaling in both genotypes. Fasting reduced muscle protein synthesis in both strains without activating the integrated-stress response (ISR). In contrast, Bckdk KO brains exhibited ISR activation during fasting, and up-regulation of Atf4 and its target genes, including Slc7a5 mRNA. Tracer studies revealed lower serum [ Show less
Testosterone production by testicular Leydig cells (steroidogenesis) is vital to male fertility and overall male health. Information about how nutrition influences Leydig cell steroidogenesis is lacki Show more
Testosterone production by testicular Leydig cells (steroidogenesis) is vital to male fertility and overall male health. Information about how nutrition influences Leydig cell steroidogenesis is lacking. Branched chain amino acids (BCAAs - leucine, isoleucine, and valine) are essential amino acids and important regulators of protein synthesis and energy production. Circulating and tissue BCAA levels are tightly regulated by the enzyme branched chain a-keto acid dehydrogenase kinase (BCKDK), which inhibits their catabolism. This work explored how BCAAs, and especially leucine, modulate male fertility and testosterone production. In a mutant mouse model of Bckdk, breeding analysis showed reduced male fertility and circulating testosterone. Further, morphological evaluation demonstrated testicular and epididymal abnormalities consistent with abnormal testicular androgen signaling. Fertility was partially rescued by feeding a high protein diet while circulating testosterone was not. In wild type testes, Leydig cells were the primary cell type to express BCKDK. Leveraging a primary interstitial cell culture, cell survival and apoptosis analyses demonstrated Leydig cells are highly sensitive to leucine deprivation and this sensitivity is enhanced under steroidogenesis stimulating conditions. Lastly, using the same primary cell culture system, testosterone production was shown to be lost under leucine deprivation. In total, this work demonstrates Leydig cells are uniquely sensitive to BCAA status under steroidogenesis stimulation and that regulated BCAA catabolism may be important for optimal male fertility. Show less