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

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

doi:10.1172/JCI162519

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

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. MonroeSundeep Khosla

Research output: Contribution to journal › Article › peer-review

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.

Original language	English (US)
Article number	e162519
Journal	Journal of Clinical Investigation
Volume	133
Issue number	8
DOIs	https://doi.org/10.1172/JCI162519
State	Published - Apr 17 2023

ASJC Scopus subject areas

Medicine(all)

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10.1172/JCI162519

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Farr, J. N., Saul, D., Doolittle, M. L., Kaur, J., Rowsey, J. L., Vos, S. J., Froemming, M. N., Lagnado, A. B., Zhu, Y., Weivoda, M., Ikeno, Y., Pignolo, R. J., Niedernhofer, L. J., Robbins, P. D., Jurk, D., Passos, J. F., LeBrasseur, N. K., Tchkonia, T., Kirkland, J. L., ... Khosla, S. (2023). Local senolysis in aged mice only partially replicates the benefits of systemic senolysis. Journal of Clinical Investigation, 133(8), [e162519]. https://doi.org/10.1172/JCI162519

Farr, JN, Saul, D, Doolittle, ML, Kaur, J, Rowsey, JL, Vos, SJ, Froemming, MN, Lagnado, AB, Zhu, Y, Weivoda, M, Ikeno, Y, Pignolo, RJ, Niedernhofer, LJ, Robbins, PD, Jurk, D , Passos, JF , LeBrasseur, NK , Tchkonia, T , Kirkland, JL , Monroe, DG & Khosla, S 2023, 'Local senolysis in aged mice only partially replicates the benefits of systemic senolysis', Journal of Clinical Investigation, vol. 133, no. 8, e162519. https://doi.org/10.1172/JCI162519

@article{12274093982745ae9e71cca0b1e14b70,

title = "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.",

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

note = "Funding Information: We gratefully acknowledge funding from the NIH: AG062413 (to SK, JNF, NKL, JLK, and TT), R01DK128552(toJNF), R01AG076515 (to SK and DGM), R01 AG063707 (to DGM), R01 AG068048 (to JFP), R37 AG013925 (to JLK and TT), 1UG3CA26810 (to JFP), R01AG063543 (to LJN), U19AG056278 (to PDR and LJN). We also acknowledge funding from the Connor Group (to JLK and TT), Robert J. and Theresa W. Ryan (to JLK and TT), and the Noaber Foundation (to JLK and TT). We would like to thank the Stanford Transgenic, Knockout, and Tumor Model Center for inserting the p16-LOX-ATTAC transgene into C57BL/6 mice. JLK, TT, J.M. van Deursen (Mayo Clinic), and D.J. Baker (Mayo Clinic) designed the strategy for and developed the INK-ATTACmice. Funding Information: We gratefully acknowledge funding from the NIH: AG062413 (to SK, JNF, NKL, JLK, and TT), R01 DK128552 (to JNF), R01 AG076515 (to SK and DGM), R01 AG063707 (to DGM), R01 AG068048 (to JFP), R37 AG013925 (to JLK and TT), 1UG3CA26810 (to JFP), R01AG063543 (to LJN), U19AG056278 (to PDR and LJN). We also acknowledge funding from the Connor Group (to JLK and TT), Robert J. and Theresa W. Ryan (to JLK and TT), and the Noaber Foundation (to JLK and TT). We would like to thank the Stanford Transgenic, Knockout, and Tumor Model Center for inserting the p16-LOX-ATTAC transgene into C57BL/6 mice. JLK, TT, J.M. van Deursen (Mayo Clinic), and D.J. Baker (Mayo Clinic) designed the strategy for and developed the INK-ATTAC mice. Publisher Copyright: Copyright: {\textcopyright} 2023, Farr et al.",

year = "2023",

month = apr,

day = "17",

doi = "10.1172/JCI162519",

language = "English (US)",

volume = "133",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "The American Society for Clinical Investigation",

number = "8",

}

TY - JOUR

T1 - Local senolysis in aged mice only partially replicates the benefits of systemic senolysis

AU - Farr, Joshua N.

AU - Saul, Dominik

AU - Doolittle, Madison L.

AU - Kaur, Japneet

AU - Rowsey, Jennifer L.

AU - Vos, Stephanie J.

AU - Froemming, Mitchell N.

AU - Lagnado, Anthony B.

AU - Zhu, Yi

AU - Weivoda, Megan

AU - Ikeno, Yuji

AU - Pignolo, Robert J.

AU - Niedernhofer, Laura J.

AU - Robbins, Paul D.

AU - Jurk, Diana

AU - Passos, João F.

AU - LeBrasseur, Nathan K.

AU - Tchkonia, Tamara

AU - Kirkland, James L.

AU - Monroe, David G.

AU - Khosla, Sundeep

N1 - Funding Information: We gratefully acknowledge funding from the NIH: AG062413 (to SK, JNF, NKL, JLK, and TT), R01DK128552(toJNF), R01AG076515 (to SK and DGM), R01 AG063707 (to DGM), R01 AG068048 (to JFP), R37 AG013925 (to JLK and TT), 1UG3CA26810 (to JFP), R01AG063543 (to LJN), U19AG056278 (to PDR and LJN). We also acknowledge funding from the Connor Group (to JLK and TT), Robert J. and Theresa W. Ryan (to JLK and TT), and the Noaber Foundation (to JLK and TT). We would like to thank the Stanford Transgenic, Knockout, and Tumor Model Center for inserting the p16-LOX-ATTAC transgene into C57BL/6 mice. JLK, TT, J.M. van Deursen (Mayo Clinic), and D.J. Baker (Mayo Clinic) designed the strategy for and developed the INK-ATTACmice. Funding Information: We gratefully acknowledge funding from the NIH: AG062413 (to SK, JNF, NKL, JLK, and TT), R01 DK128552 (to JNF), R01 AG076515 (to SK and DGM), R01 AG063707 (to DGM), R01 AG068048 (to JFP), R37 AG013925 (to JLK and TT), 1UG3CA26810 (to JFP), R01AG063543 (to LJN), U19AG056278 (to PDR and LJN). We also acknowledge funding from the Connor Group (to JLK and TT), Robert J. and Theresa W. Ryan (to JLK and TT), and the Noaber Foundation (to JLK and TT). We would like to thank the Stanford Transgenic, Knockout, and Tumor Model Center for inserting the p16-LOX-ATTAC transgene into C57BL/6 mice. JLK, TT, J.M. van Deursen (Mayo Clinic), and D.J. Baker (Mayo Clinic) designed the strategy for and developed the INK-ATTAC mice. Publisher Copyright: Copyright: © 2023, Farr et al.

PY - 2023/4/17

Y1 - 2023/4/17

N2 - 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.

AB - 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.

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U2 - 10.1172/JCI162519

DO - 10.1172/JCI162519

M3 - Article

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AN - SCOPUS:85152618606

SN - 0021-9738

VL - 133

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 8

M1 - e162519

ER -

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

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