Targeted Reduction of Senescent Cell Burden Alleviates Focal Radiotherapy‐Related Bone Loss

Targeted Reduction of Senescent Cell Burden Alleviates Focal Radiotherapy‐Related Bone Loss

ABSTRACT Clinical radiotherapy treats life‐threatening cancers, but the radiation often affects neighboring normal tissues including bone. Acute effects of ionizing radiation include oxidative stress, DNA damage, and cellular apoptosis. We show in this study that a large proportion of bone marrow ce...

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Veröffentlicht in:Journal of bone and mineral research 2020-06, Vol.35 (6), p.1119-1131
Hauptverfasser: Chandra, Abhishek, Lagnado, Anthony B, Farr, Joshua N, Monroe, David G, Park, Sean, Hachfeld, Christine, Tchkonia, Tamar, Kirkland, James L, Khosla, Sundeep, Passos, João F, Pignolo, Robert J
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Acute effects
Apoptosis
Bone loss
Bone marrow
DNA damage
INK4a protein
Ionizing radiation
Osteoblasts
Osteocytes
OSTEOPOROSIS
Oxidative stress
p16 Protein
Phenotypes
Quercetin
Radiation therapy
RADIOTHERAPY
SENESCENCE
SENOLYTICS
TELOMERE DYSFUNCTION
Telomeres
β-Galactosidase
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container_end_page 1131
container_issue 6
container_start_page 1119
container_title Journal of bone and mineral research
container_volume 35
creator Chandra, Abhishek
Lagnado, Anthony B
Farr, Joshua N
Monroe, David G
Park, Sean
Hachfeld, Christine
Tchkonia, Tamar
Kirkland, James L
Khosla, Sundeep
Passos, João F
Pignolo, Robert J
description ABSTRACT Clinical radiotherapy treats life‐threatening cancers, but the radiation often affects neighboring normal tissues including bone. Acute effects of ionizing radiation include oxidative stress, DNA damage, and cellular apoptosis. We show in this study that a large proportion of bone marrow cells, osteoblasts, and matrix‐embedded osteocytes recover from these insults only to attain a senescent profile. Bone analyses of senescence‐associated genes, senescence‐associated beta‐galactosidase (SA‐β‐gal) activity, and presence of telomere dysfunction‐induced foci (TIF) at 1, 7, 14, 21, and 42 days post–focal radiation treatment (FRT) in C57BL/6 male mice confirmed the development of senescent cells and the senescence‐associated secretory phenotype (SASP). Accumulation of senescent cells and SASP markers were correlated with a significant reduction in bone architecture at 42 days post‐FRT. To test if senolytic drugs, which clear senescent cells, alleviate FRT‐related bone damage, we administered the senolytic agents, dasatinib (D), quercetin (Q), fisetin (F), and a cocktail of D and Q (D+Q). We found moderate alleviation of radiation‐induced bone damage with D and Q as stand‐alone compounds, but no such improvement was seen with F. However, the senolytic cocktail of D+Q reduced senescent cell burden as assessed by TIF+ osteoblasts and osteocytes, markers of senescence (p16 Ink4a and p21), and key SASP factors, resulting in significant recovery in the bone architecture of radiated femurs. In summary, this study provides proof of concept that senescent cells play a role in radiotherapy‐associated bone damage, and that reduction in senescent cell burden by senolytic agents is a potential therapeutic option for alleviating radiotherapy‐related bone deterioration. © 2020 American Society for Bone and Mineral Research.
doi_str_mv 10.1002/jbmr.3978
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Acute effects of ionizing radiation include oxidative stress, DNA damage, and cellular apoptosis. We show in this study that a large proportion of bone marrow cells, osteoblasts, and matrix‐embedded osteocytes recover from these insults only to attain a senescent profile. Bone analyses of senescence‐associated genes, senescence‐associated beta‐galactosidase (SA‐β‐gal) activity, and presence of telomere dysfunction‐induced foci (TIF) at 1, 7, 14, 21, and 42 days post–focal radiation treatment (FRT) in C57BL/6 male mice confirmed the development of senescent cells and the senescence‐associated secretory phenotype (SASP). Accumulation of senescent cells and SASP markers were correlated with a significant reduction in bone architecture at 42 days post‐FRT. To test if senolytic drugs, which clear senescent cells, alleviate FRT‐related bone damage, we administered the senolytic agents, dasatinib (D), quercetin (Q), fisetin (F), and a cocktail of D and Q (D+Q). 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Acute effects of ionizing radiation include oxidative stress, DNA damage, and cellular apoptosis. We show in this study that a large proportion of bone marrow cells, osteoblasts, and matrix‐embedded osteocytes recover from these insults only to attain a senescent profile. Bone analyses of senescence‐associated genes, senescence‐associated beta‐galactosidase (SA‐β‐gal) activity, and presence of telomere dysfunction‐induced foci (TIF) at 1, 7, 14, 21, and 42 days post–focal radiation treatment (FRT) in C57BL/6 male mice confirmed the development of senescent cells and the senescence‐associated secretory phenotype (SASP). Accumulation of senescent cells and SASP markers were correlated with a significant reduction in bone architecture at 42 days post‐FRT. To test if senolytic drugs, which clear senescent cells, alleviate FRT‐related bone damage, we administered the senolytic agents, dasatinib (D), quercetin (Q), fisetin (F), and a cocktail of D and Q (D+Q). We found moderate alleviation of radiation‐induced bone damage with D and Q as stand‐alone compounds, but no such improvement was seen with F. However, the senolytic cocktail of D+Q reduced senescent cell burden as assessed by TIF+ osteoblasts and osteocytes, markers of senescence (p16 Ink4a and p21), and key SASP factors, resulting in significant recovery in the bone architecture of radiated femurs. 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source Oxford University Press Journals All Titles (1996-Current); Wiley Online Library Journals Frontfile Complete; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects Acute effects
Apoptosis
Bone loss
Bone marrow
DNA damage
INK4a protein
Ionizing radiation
Osteoblasts
Osteocytes
OSTEOPOROSIS
Oxidative stress
p16 Protein
Phenotypes
Quercetin
Radiation therapy
RADIOTHERAPY
SENESCENCE
SENOLYTICS
TELOMERE DYSFUNCTION
Telomeres
β-Galactosidase
title Targeted Reduction of Senescent Cell Burden Alleviates Focal Radiotherapy‐Related Bone Loss
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