Literature DB >> 31932453

Therapy-Induced Senescence Drives Bone Loss.

Zhangting Yao1, Bhavna Murali1, Qihao Ren1, Xianmin Luo1, Douglas V Faget1, Tom Cole1, Biancamaria Ricci2, Dinesh Thotala3, Joseph Monahan4, Jan M van Deursen5, Darren Baker5, Roberta Faccio2,6, Julie K Schwarz3, Sheila A Stewart7,8,9,10.   

Abstract

Chemotherapy is important for cancer treatment, however, toxicities limit its use. While great strides have been made to ameliorate the acute toxicities induced by chemotherapy, long-term comorbidities including bone loss remain a significant problem. Chemotherapy-driven estrogen loss is postulated to drive bone loss, but significant data suggests the existence of an estrogen-independent mechanism of bone loss. Using clinically relevant mouse models, we showed that senescence and its senescence-associated secretory phenotype (SASP) contribute to chemotherapy-induced bone loss that can be rescued by depleting senescent cells. Chemotherapy-induced SASP could be limited by targeting the p38MAPK-MK2 pathway, which resulted in preservation of bone integrity in chemotherapy-treated mice. These results transform our understanding of chemotherapy-induced bone loss by identifying senescent cells as major drivers of bone loss and the p38MAPK-MK2 axis as a putative therapeutic target that can preserve bone and improve a cancer survivor's quality of life. SIGNIFICANCE: Senescence drives chemotherapy-induced bone loss that is rescued by p38MAPK or MK2 inhibitors. These findings may lead to treatments for therapy-induced bone loss, significantly increasing quality of life for cancer survivors. ©2020 American Association for Cancer Research.

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Year:  2020        PMID: 31932453      PMCID: PMC7056549          DOI: 10.1158/0008-5472.CAN-19-2348

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  56 in total

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Authors:  S W Blume; J R Curtis
Journal:  Osteoporos Int       Date:  2010-12-17       Impact factor: 4.507

2.  Ovariectomy-induced bone loss varies among inbred strains of mice.

Authors:  Mary L Bouxsein; Kelly S Myers; Kathryn L Shultz; Leah R Donahue; Clifford J Rosen; Wesley G Beamer
Journal:  J Bone Miner Res       Date:  2005-03-07       Impact factor: 6.741

3.  Predictive value of bone resorption and formation markers in cancer patients with bone metastases receiving the bisphosphonate zoledronic acid.

Authors:  Robert E Coleman; Pierre Major; Allan Lipton; Janet E Brown; Ker-Ai Lee; Matthew Smith; Fred Saad; Ming Zheng; Yong Jiang Hei; John Seaman; Richard Cook
Journal:  J Clin Oncol       Date:  2005-06-27       Impact factor: 44.544

4.  Independent Roles of Estrogen Deficiency and Cellular Senescence in the Pathogenesis of Osteoporosis: Evidence in Young Adult Mice and Older Humans.

Authors:  Joshua N Farr; Jennifer L Rowsey; Brittany A Eckhardt; Brianne S Thicke; Daniel G Fraser; Tamar Tchkonia; James L Kirkland; David G Monroe; Sundeep Khosla
Journal:  J Bone Miner Res       Date:  2019-06-21       Impact factor: 6.741

5.  Estrogen and bone: insights from estrogen-resistant, aromatase-deficient, and normal men.

Authors:  Sundeep Khosla
Journal:  Bone       Date:  2008-05-16       Impact factor: 4.398

6.  Early response to neo-adjuvant chemotherapy in carcinoma of the breast predicts both successful breast-conserving surgery and decreased risk of ipsilateral breast tumor recurrence.

Authors:  Makoto Ishitobi; Yoshifumi Komoike; Kazuyoshi Motomura; Hiroki Koyama; Hideo Inaji
Journal:  Breast J       Date:  2009-11-19       Impact factor: 2.431

7.  Differential effect of doxorubicin and zoledronic acid on intraosseous versus extraosseous breast tumor growth in vivo.

Authors:  Penelope D Ottewell; Blandine Deux; Hannu Mönkkönen; Simon Cross; Robert E Coleman; Philippe Clezardin; Ingunn Holen
Journal:  Clin Cancer Res       Date:  2008-07-15       Impact factor: 12.531

Review 8.  Pathogenesis of age-related bone loss in humans.

Authors:  Sundeep Khosla
Journal:  J Gerontol A Biol Sci Med Sci       Date:  2012-08-24       Impact factor: 6.053

9.  Neoadjuvant trials in early breast cancer: pathological response at surgery and correlation to longer term outcomes - what does it all mean?

Authors:  Helena Earl; Elena Provenzano; Jean Abraham; Janet Dunn; Anne-Laure Vallier; Ioannis Gounaris; Louise Hiller
Journal:  BMC Med       Date:  2015-09-22       Impact factor: 8.775

10.  Estrogen Regulates Bone Turnover by Targeting RANKL Expression in Bone Lining Cells.

Authors:  Carmen Streicher; Alexandra Heyny; Olena Andrukhova; Barbara Haigl; Svetlana Slavic; Christiane Schüler; Karoline Kollmann; Ingrid Kantner; Veronika Sexl; Miriam Kleiter; Lorenz C Hofbauer; Paul J Kostenuik; Reinhold G Erben
Journal:  Sci Rep       Date:  2017-07-25       Impact factor: 4.379
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  21 in total

Review 1.  The role of senolytics in osteoporosis and other skeletal pathologies.

Authors:  Madison L Doolittle; David G Monroe; Joshua N Farr; Sundeep Khosla
Journal:  Mech Ageing Dev       Date:  2021-09-06       Impact factor: 5.498

Review 2.  Bone-Muscle Crosstalk: Musculoskeletal Complications of Chemotherapy.

Authors:  Brian A Hain; David L Waning
Journal:  Curr Osteoporos Rep       Date:  2022-09-10       Impact factor: 5.163

3.  Temporal and spatial changes in bone mineral content and mechanical properties during breast-cancer bone metastases.

Authors:  Anneke S K Verbruggen; Elan C McCarthy; Roisin M Dwyer; Laoise M McNamara
Journal:  Bone Rep       Date:  2022-06-12

Review 4.  Osteocyte Cellular Senescence.

Authors:  Joshua N Farr; Japneet Kaur; Madison L Doolittle; Sundeep Khosla
Journal:  Curr Osteoporos Rep       Date:  2020-10       Impact factor: 5.096

Review 5.  Molecular mechanisms and cardiovascular implications of cancer therapy-induced senescence.

Authors:  Ibrahim Y Abdelgawad; Karim T Sadak; Diana W Lone; Mohamed S Dabour; Laura J Niedernhofer; Beshay N Zordoky
Journal:  Pharmacol Ther       Date:  2020-12-01       Impact factor: 12.310

6.  Targeting senescent retinal pigment epithelial cells facilitates retinal regeneration in mouse models of age-related macular degeneration.

Authors:  Jae-Byoung Chae; Hyoik Jang; Chanok Son; Chul-Woo Park; Huyeon Choi; Seongeon Jin; Ho-Yeon Lee; Hyungwoo Lee; Ja-Hyoung Ryu; Namshin Kim; Chaekyu Kim; Hyewon Chung
Journal:  Geroscience       Date:  2021-10-02       Impact factor: 7.713

Review 7.  Targeting tumor cell senescence and polyploidy as potential therapeutic strategies.

Authors:  Tareq Saleh; Valerie J Carpenter; Sarah Bloukh; David A Gewirtz
Journal:  Semin Cancer Biol       Date:  2020-12-20       Impact factor: 17.012

Review 8.  Emerging Autophagy Functions Shape the Tumor Microenvironment and Play a Role in Cancer Progression - Implications for Cancer Therapy.

Authors:  Silvina Odete Bustos; Fernanda Antunes; Maria Cristina Rangel; Roger Chammas
Journal:  Front Oncol       Date:  2020-11-25       Impact factor: 6.244

Review 9.  Cellular senescence in age-related disorders.

Authors:  Japneet Kaur; Joshua N Farr
Journal:  Transl Res       Date:  2020-06-20       Impact factor: 7.012

10.  Deconstructing tumor heterogeneity: the stromal perspective.

Authors:  Renee E Vickman; Douglas V Faget; Philip Beachy; David Beebe; Neil A Bhowmick; Edna Cukierman; Wu-Min Deng; James G Granneman; Jeffrey Hildesheim; Raghu Kalluri; Ken S Lau; Ernst Lengyel; Joakim Lundeberg; Jorge Moscat; Peter S Nelson; Kristian Pietras; Katerina Politi; Ellen Puré; Ruth Scherz-Shouval; Mara H Sherman; David Tuveson; Ashani T Weeraratna; Richard M White; Melissa H Wong; Elisa C Woodhouse; Ying Zheng; Simon W Hayward; Sheila A Stewart
Journal:  Oncotarget       Date:  2020-10-06
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