Local senolysis in aged mice only partially replicates the benefits of systemic senolysis
Joshua N. Farr, … , David G. Monroe, Sundeep Khosla
Joshua N. Farr, … , David G. Monroe, Sundeep Khosla
Published February 21, 2023
Citation Information: J Clin Invest. 2023;133(8):e162519. https://doi.org/10.1172/JCI162519.
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Research Article Aging Bone biology

Local senolysis in aged mice only partially replicates the benefits of systemic senolysis

Abstract

Clearance of senescent cells (SnCs) can prevent several age-related pathologies, including bone loss. However, the local versus systemic roles of SnCs in mediating tissue dysfunction remain unclear. Thus, we developed a mouse model (p16-LOX-ATTAC) that allowed for inducible SnC elimination (senolysis) in a cell-specific manner and compared the effects of local versus systemic senolysis during aging using bone as a prototype tissue. Specific removal of Sn osteocytes prevented age-related bone loss at the spine, but not the femur, by improving bone formation without affecting osteoclasts or marrow adipocytes. By contrast, systemic senolysis prevented bone loss at the spine and femur and not only improved bone formation, but also reduced osteoclast and marrow adipocyte numbers. Transplantation of SnCs into the peritoneal cavity of young mice caused bone loss and also induced senescence in distant host osteocytes. Collectively, our findings provide proof-of-concept evidence that local senolysis has health benefits in the context of aging, but, importantly, that local senolysis only partially replicates the benefits of systemic senolysis. Furthermore, we establish that SnCs, through their senescence-associated secretory phenotype (SASP), lead to senescence in distant cells. Therefore, our study indicates that optimizing senolytic drugs may require systemic instead of local SnC targeting to extend healthy aging.

Authors

Joshua N. Farr, Dominik Saul, Madison L. Doolittle, Japneet Kaur, Jennifer L. Rowsey, Stephanie J. Vos, Mitchell N. Froemming, Anthony B. Lagnado, Yi Zhu, Megan Weivoda, Yuji Ikeno, Robert J. Pignolo, Laura J. Niedernhofer, Paul D. Robbins, Diana Jurk, João F. Passos, Nathan K. LeBrasseur, Tamara Tchkonia, James L. Kirkland, David G. Monroe, Sundeep Khosla

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Figure 1

Sn osteocytes accumulate in bone with aging and are cleared by AP treatment in old DMP1-Cre+/– p16-LOX-ATTAC mice.

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Sn osteocytes accumulate in bone with aging and are cleared by AP treatm...
(A) Changes in female (pink bars) and male (blue bars) murine p16Ink4a mRNA expression throughout life in osteocyte-enriched bone from C57BL/6 WT mice, relative to young adult (6-month-old) mice. ***P < 0.001, by ANOVA with Tukey’s post hoc test. (B) Representative images of a non-Sn osteocyte (original magnification, ×63 oil) in a young (6-month-old) mouse versus a Sn osteocyte in an old (24-month-old) mouse according to the TAF (white arrows) assay (n = 8 females/group). Scale bars: 20 μm and 2 μm (enlarged insets). (CE) Quantification of (C) the mean TAF/osteocyte and (D) the mean percentage of TAF+ osteocytes/mouse based on: the percentage of osteocytes with 1 or more TAF, the percentage of osteocytes with 2 or more TAF, and the percentage of osteocytes with 3 or more TAF, respectively; and quantification of (E) the mean percentage of 3 or more TAF+ osteocytes/mouse (n = 8 females/group). (F) Schematic of the unrecombined p16-LOX-ATTAC construct and cross with DMP1-Cre mice. (G) Study design for local clearance of Sn osteocytes in old (20 months) p16-LOX-ATTAC x DMP1-Cre mouse cohorts, males and females combined, randomized to Veh (gray) or AP (teal) treatment for 4 months. (H) RT-qPCR analysis of p16Ink4a mRNA expression across tissues in mice (males and females combined, n = 12–18 per tissue) treated with Veh (gray) or AP (teal). (I and J) Quantification of (I) the mean percentage of TAF+ osteocytes/mouse and (J) the mean percentage of TAF+ osteoblasts per mouse (OBs/mouse) based on the percentage of cells with 1 or more TAF, the percentage of cells with 2 or more TAF, and the percentage of cells with 3 or more TAF, respectively. (K) Representative images of perigonadal adipose tissue staining for SA–β-Gal+ cells in Veh- and AP-treated mice. Scale bars: 100 μm. (L) Quantification of SA–β-Gal+ adipocytes in mice treated with Veh (gray, n = 9: n = 5 females, n = 4 males) or AP (teal, n = 11: n = 6 females, n = 5 males). Data represent the mean ± SEM. *P < 0.05, **P < 0.01, and ***P < 0.001, by independent samples Student’s t test or Wilcoxon rank-sum test, as appropriate. OCY, osteocytes.