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A decrease in NAD+ contributes to the loss of osteoprogenitors and bone mass with aging

Ha‐Neui Kim, Filipa Ponte, Aaron Warren, Rebecca Ring, Srividhya Iyer, Li Han, Maria Almeida

2021npj Aging and Mechanisms of Disease58 citationsDOIOpen Access PDF

Abstract

Abstract Age-related osteoporosis is caused by a deficit in osteoblasts, the cells that secrete bone matrix. The number of osteoblast progenitors also declines with age associated with increased markers of cell senescence. The forkhead box O (FoxO) transcription factors attenuate Wnt/β-catenin signaling and the proliferation of osteoprogenitors, thereby decreasing bone formation. The NAD + -dependent Sirtuin1 (Sirt1) deacetylates FoxOs and β-catenin in osteoblast progenitors and, thereby, increases bone mass. However, it remains unknown whether the Sirt1/FoxO/β-catenin pathway is dysregulated with age in osteoblast progenitors. We found decreased levels of NAD + in osteoblast progenitor cultures from old mice, associated with increased acetylation of FoxO1 and markers of cell senescence. The NAD + precursor nicotinamide riboside (NR) abrogated FoxO1 and β-catenin acetylation and several marker of cellular senescence, and increased the osteoblastogenic capacity of cells from old mice. Consistent with these effects, NR administration to C57BL/6 mice counteracted the loss of bone mass with aging. Attenuation of NAD + levels in osteoprogenitor cultures from young mice inhibited osteoblastogenesis in a FoxO-dependent manner. In addition, mice with decreased NAD + in cells of the osteoblast lineage lost bone mass at a young age. Together, these findings suggest that the decrease in bone formation with old age is due, at least in part, to a decrease in NAD + and dysregulated Sirt1/FoxO/β-catenin pathway in osteoblast progenitors. NAD + repletion, therefore, represents a rational therapeutic approach to skeletal involution.

Topics & Concepts

OsteoblastNAD+ kinaseSenescenceEndocrinologyWnt signaling pathwayProgenitor cellInternal medicineFOXO1ProgenitorSirtuin 1Cell biologyBiologySenile osteoporosisOsteoporosisChemistryStem cellSignal transductionDownregulation and upregulationMedicineBiochemistryIn vitroEnzymeGeneProtein kinase BSirtuins and Resveratrol in MedicineFOXO transcription factor regulationMicroRNA in disease regulation
A decrease in NAD+ contributes to the loss of osteoprogenitors and bone mass with aging | Litcius