Abstract

Abstract Disclosure: N. Filigheddu: None. T. Raiteri: None. S. Reano: None. A. Scircoli: None. A. Antonioli: None. F. Prodam: None. Vitamin D binding protein (VDBP), encoded by the Gc gene, is a multifunctional serum glycoprotein synthesized by hepatocytes, whose primary function is the transport of vitamin D metabolites in the bloodstream. In addition, VDBP enhances the chemotactic activity of neutrophil chemoattractants and takes part in the actin-scavenger system by acting as a monomeric G-actin-binding protein. Several studies have reported a correlation between increased levels of VDBP and various pathologies often associated with muscle wasting, including different types of tumors. Given these findings, we hypothesized that VDBP may play a role in skeletal muscle homeostasis.In vitro, treatment of C2C12 myotubes with 100 mM VDBP for 24 h induced the perturbation of intracellular actin dynamics due to VDBP's ability to bind G-actin that, in turn, led to mitochondrial dysfunction (i.e., mitochondrial membrane potential dissipation, respiratory impairment, increased ROS production, induction of the fission machinery), exacerbation of autophagy, and, eventually, atrophy, seen as the reduction of myotube diameter. Remarkably, pharmacological intervention on myotubes with jasplakinolide (250 mM, 30 min pre-treatment) to counteract VDBP effects on intracellular actin dynamics was sufficient to prevent VDBP-induced atrophy. To assess if VDBP had a causative role in muscle atrophy in vivo, we injected VDBP (1.5 mg/Kg) every 48 h for one week in the tibialis anterior muscles of Gc knock-out mice (VDBP KO). At the end of the experimental period, we observed the induction of the mitophagic gene Bnip3, impairment of muscle performances (26% reduction of grip strength at the endpoint), and a 16% reduction of muscle mass compared to the saline-injected contralateral muscles, confirming the atrophic effect of VDBP in vivo.Coherently with the upregulation of VDBP observed in cancer patients, VDBP levels also increase in murine models of cancer cachexia. To test the hypothesis that VDBP could play a role in cancer-associated muscle wasting, we induced cancer cachexia in VDBP KO mice by inoculating 106 Lewis Lung Carcinoma (LLC) cells resuspended in 100 μl of saline on the back of mice. Tumor-bearing VDBP KO mice preserved their body weight and performances, and the muscle loss was lessened by more than 50% compared to cachectic WT mice. Notably, between the two groups, there were no differences in tumor growth or food intake, ruling out the possibility that the reduction in muscle wasting could depend on smaller tumors or differential development of anorexia in the two genotypes. In conclusion, we demonstrated that VDBP acts as a hormone per se, having a direct pro-atrophic activity on skeletal muscle. Our data suggest that VDBP could represent a potential therapeutic target to treat cancer cachexia and other pathologies in which the rise of VDBP could impinge muscle mass and functionality. Presentation: 6/1/2024

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