abstract
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Directing both organismal homeostasis and physiological adaptation, the pituitary is a key endocrine gland in all vertebrates. It communicates the needs of the organism to different organs by secreting hormones into the bloodstream. Here, we have used the model fish medaka to investigate the developmental dynamics in the pituitary using a comprehensive RNA-seq time series. By linking developmental expression trends to single-cell RNA-seq profiles, we show how the transcriptional activities of cell types change during sexual maturation. One of the most prominent changes is the decline of the non-endocrine folliculo-stellate cell populations, and especially of rare cells expressing genes encoding secreted lipid transport proteins. As these genes are typically associated with the liver, this reveals the existence of unexpected connections between endocrine communication, lipid homeostasis, and sexual maturation.
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Cyclin-dependent kinase 4 (CDK4) canonical role is to control cell cycle progression from G1 to S phases. However, recent studies reported that CDK4 regulates energy metabolism in non-proliferating cells such as hepatocytes or adipocytes. The objective of our work is to study CDK4 function in skeletal muscle using a model of mice lacking CDK4 (cdk4-/-). By coupling treadmill running to indirect calorimetry, we show that cdk4-/- mice display improved endurance and higher capacity to use fat as fuel during exercise. Isolated muscles lacking CDK4 are more resistant to fatigue in response to repeated contractions and have increased oxidative capacity and mitochondrial content compared to cdk4+/+ muscles. Transcriptomic analysis reveals upregulation of genes controlled by the nuclear receptors estrogen-related receptors (ERRs) in cdk4-/- skeletal muscle, associated with elevated levels of the ERR co-activator PGC1a. Supporting in vivo results, C2C12 myotubes treated with a CDK4 inhibitor have increased mitochondrial oxygen consumption, PGC1 expression and ERR transcriptional activity measured by a luciferase reporter. In normal housing conditions, cdk4-/- mice show an increased basal metabolic rate and are resistant to weight gain and fat accumulation. In conclusion, our study uncovers a role for CDK4 in the control of skeletal muscle metabolism. Moreover, CDK4 inhibition may be an alternative strategy against obesity-associated metabolic disorders.
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Metabolic scaling, the inverse correlation of metabolic rates to body mass, has been appreciated for more than 80 years. Studies of metabolic scaling have almost exclusively been restricted to mathematical modeling of oxygen consumption. The possibility that other metabolic processes scale with body size has not been studied. To address this gap in knowledge, we employed a systems approach spanning from transcriptomics to in vitro and in vivo tracer-based flux. Gene expression in livers of five species spanning a 30,000-fold range in mass revealed differential expression of genes related to cytosolic and mitochondrial metabolic processes, in addition to detoxication of oxidative damage. This suggests that transcriptional scaling of damage control mechanisms accommodates increased oxidative metabolism in smaller species. To determine whether flux through key implicated metabolic pathways scaled, we applied stable isotope tracer methodology to study multiple cellular compartments, tissues, and species. Comparing mice and rats, we demonstrate that while scaling of metabolic fluxes is not observed in the cell-autonomous setting, it is present in liver slices and in vivo. Together, these data reveal that metabolic scaling extends beyond oxygen consumption to numerous other metabolic pathways, and is likely regulated at the level of gene expression and substrate supply.
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