Experimental cell research
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FGF23 is a bone-derived hormone that regulates systemic phosphate homeostasis, vitamin D metabolism and α-Klotho expression through a novel bone-kidney axis. FGF23 inhibits renal tubular reabsorption of phosphate through mechanisms independent of PTH as well as reduces circulating 1, 25(OH)(2)D through its dual effects to suppress Cyp27b1 production and to stimulate Cyp24 catabolism of 1,25(OH)(2)D. 1,25(OH)(2)D and other factors regulating bone remodeling/mineralization are the major physiological regulators of FGF23 expression. FGF23 also suppresses the gene transcription of α-klotho by the kidney, which exists as a membrane and soluble protein. ⋯ In addition, the prevalent thought that CKD is a functional "vitamin D deficient state" requiring therapy with 1,25(OH)(2)D analogs is challenged by effects of FGF23 to potentially lower both 25(OH)D and 1,25(OH)D by induction of Cyp24-mediated degradation. Finally, increments in FGF23 are associated with increased cardiovascular mortality in CKD. Whether these effects represent direct effects of FGF23 or represent a marker of other abnormalities in CKD remains to be determined.
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Erythropoietin (EPO) is an essential glycoprotein that facilitates red blood cell maturation from erythroid progenitors and mediates erythropoiesis. The use of recombinant human EPO (rhEPO) dramatically changed management of anemic patients with chronic kidney disease and improved their quality of life. EPO is mainly produced in the fetal liver and the postnatal kidney, although the molecular determinants for tissue-specific expression are elusive. ⋯ The precise signal transduction pathways of pleiotropic EPO remain unclear, but carbamylated EPO, which fails to bind to the canonical EPOR homodimers or transduce the JAK2-STAT5 signaling, conferred organ protection through multimeric receptors composed of EPO-R and the common β subunit (βCR). The clinical benefit of normalization of anemia in pre-dialysis CKD by EPO therapy is controversial and recent large-scale, randomized-controlled trials do not favor normalization of anemia by EPO in improving cardiovascular as well as renal outcomes. The optimal EPO therapy should be determined based on the clinical context of individual patients.
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The migration of vascular endothelial cells plays a critical role in a variety of vascular physiological and pathological processes, such as embryonic development, angiogenesis, wound healing, re-endothelialization, and vascular remodeling. This study clarified the role and mechanism of a new vascular homeostasis regulator, Cellular repressor of E1A-stimulated genes (CREG), in the migration of primary human umbilical vein endothelial cells (HUVECs). ⋯ Furthermore, wild type integrin-linked kinase reversed the poor mobility of CREG knock-down HUVECs; in contrast, kinase-dead integrin-linked kinase weakened the migration of HUVECs. We also studied the effect of CREG on HUVEC migration by the addition of an mTOR inhibitor, recombinant vascular endothelial growth factor(165), neutralizing antibody of vascular endothelial growth factor(165) and AKT siRNA, and we concluded that CREG induces endothelial cell migration by activating the integrin-linked kinase/AKT/mTOR/VEGF(165) signaling pathway.
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In the process of tissue injury and repair, epithelial cells rapidly migrate and form epithelial sheets. Vinexin is a cytoplasmic molecule of the integrin-containing cell adhesion complex localized at focal contacts in vitro. Here, we investigated the roles of vinexin in keratinocyte migration in vitro and wound healing in vivo. ⋯ They similarly showed slow migration in scratch assay. Furthermore, vinexin (-/-) mice exhibited a delay in cutaneous wound healing in both the back skin and tail without affecting the proliferation of keratinocytes. Together, these results strongly suggest a crucial role of vinexin in keratinocyte migration in vitro and cutaneous wound healing in vivo.
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In several invertebrate organisms, the Sec1p/Munc18-like protein Vps45 interacts with the divalent Rab4/Rab5 effector, Rabenosyn-5 and carries out multiple functions in the endocytic/secretory pathways. In mammalian cells, Vps45 and Rabenosyn-5 also interact, but the molecular characterization of this binding, and the functional relationship between these two proteins has not been well defined. Here we identify a novel sequence within Rabenosyn-5 required for its interaction with Vps45. ⋯ However, unlike Rabenosyn-5-depletion, which induces Golgi fragmentation and decreased recruitment of sorting nexin retromer subunits to the Golgi, hVps45-depletion induces Golgi condensation and accumulation of retromer subunits in the vicinity of the Golgi. In part, these phenomena could be attributed to reduced Syntaxin16 expression and altered localization of both Syntaxin16 and Syntaxin6 upon Vps45-depletion. Overall, these findings implicate hVps45 and Rabenosyn-5 in post early endosome transport, and we propose that their interaction serves as a nexus to promote bidirectional transport along the endosome-to-recycling compartment and endosome-to-Golgi axes.