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Age‐related increase of CD38 directs osteoclastogenic potential of monocytic myeloid‐derived suppressor cells through mitochondrial dysfunction in male mice.

Authors :
Thiyagarajan, Ramkumar
Zhang, Lixia
Glover, Omar D.
Kwack, Kyu Hwan
Ahmed, Sara
Murray, Emma
Yellapu, Nanda Kumar
Bard, Jonathan
Seldeen, Kenneth L.
Rosario, Spencer R.
Troen, Bruce R.
Kirkwood, Keith L.
Source :
Aging Cell; Nov2024, Vol. 23 Issue 11, p1-16, 16p
Publication Year :
2024

Abstract

An aged immune system undergoes substantial changes where myelopoiesis dominates within the bone marrow. Monocytic‐MDSCs (M‐MDSCs) have been found to play an important role in osteoclastogenesis and bone resorption. In this study, we sought to provide a more comprehensive understanding of the osteoclastogenic potential of bone marrow M‐MDSCs during normal aging through transcriptomic and metabolic changes. Using young mature and aged mice, detailed immunophenotypic analyses of myeloid cells revealed that the M‐MDSCs were not increased in bone marrow, however M‐MDSCS were significantly expanded in peripheral tissues. Although aged mice exhibited a similar number of M‐MDSCs in bone marrow, these M‐MDSCs had significantly higher osteoclastogenic potential and greater demineralization activity. Intriguingly, osteoclast progenitors from aged bone marrow M‐MDSCs exhibited greater mitochondrial respiration rate and glucose metabolism. Further, transcriptomic analyses revealed the upregulation of mitochondrial oxidative phosphorylation and glucose metabolism genes. Interestingly, there was 8‐fold increase in Cd38 mRNA gene expression, consistent with the Mouse Aging Cell Atlas transcriptomic database, and confirmed by qRT‐PCR. CD38 regulates NAD+ availability, and 78c, a small molecule inhibitor of CD38, reduced the mitochondrial oxygen consumption rate and glucose metabolism and inhibited the osteoclastogenic potential of aged mice bone marrow‐derived M‐MDSCs. These results indicate that the age‐related increase in Cd38 expression in M‐MDSCs bias the transcriptome of M‐MDSCs towards osteoclastogenesis. This enhanced understanding of the mechanistic underpinnings of M‐MDSCs and their osteoclastogenesis during aging could lead to new therapeutic approaches for age‐related bone loss and promote healthy aging. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
14749718
Volume :
23
Issue :
11
Database :
Complementary Index
Journal :
Aging Cell
Publication Type :
Academic Journal
Accession number :
180902111
Full Text :
https://doi.org/10.1111/acel.14298