The Cancer Therapy-Related Clonal Hematopoiesis Driver Gene Ppm1d Promotes Inflammation and Non-Ischemic Heart Failure in Mice

Yoshimitsu, Yura; Miura Yura, Emiri; Yasufumi, Katanasaka; Kyung Duk, Min; Chavkin, Nicholas; Polizio, Ariel Héctor; Ogawa, Hayato; Horitani, Keita; Doviak, Heather; Evans, Megan A.; Sano, Miho; Wang, Ying; Boroviak, Katharina; Philippos, George; Domingues, Ana Filipa; Vassiliou, George; Sano, Soichi; Walsh, Kenneth

doi:10.1161/CIRCRESAHA.121.319314

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Yoshimitsu, Yura

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Miura Yura, Emiri

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Yasufumi, Katanasaka

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Kyung Duk, Min

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Chavkin, Nicholas

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Polizio, Ariel Héctor Se ha confirmado la validez de este valor de autoridad por un usuario

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Ogawa, Hayato

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Horitani, Keita

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Doviak, Heather

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Evans, Megan A.

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Sano, Miho

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Wang, Ying

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Boroviak, Katharina

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Philippos, George

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Domingues, Ana Filipa

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Vassiliou, George

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Sano, Soichi

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Walsh, Kenneth

dc.date.available

2022-08-03T14:21:37Z

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2021-09

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Yoshimitsu, Yura; Miura Yura, Emiri; Yasufumi, Katanasaka; Kyung Duk, Min; Chavkin, Nicholas; et al.; The Cancer Therapy-Related Clonal Hematopoiesis Driver Gene Ppm1d Promotes Inflammation and Non-Ischemic Heart Failure in Mice; Lippincott Williams; Circulation Research; 129; 6; 9-2021; 684-698

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0009-7330

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http://hdl.handle.net/11336/164035

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Rationale: Cancer therapy can be associated with short- and long-term cardiac dysfunction. Patients with cancer often exhibit therapy-related clonal hematopoiesis (t-CH), an aggressive form of clonal hematopoiesis that can result from somatic mutations in genes encoding regulators of the DNA-damage response (DDR) pathway. Gain-of-function mutations in exon 6 of the protein phosphatase Mg2+/Mn2+ dependent 1D (PPM1D) gene are the most frequently mutated DNA-damage response gene associated with t-CH. Whether t-CH can contribute to cardiac dysfunction is unknown. Objective: We evaluated the causal and mechanistic relationships between Ppm1d-mediated t-CH and nonischemic heart failure in an experimental system. Methods and Results: To test whether gain-of-function hematopoietic cell mutations in Ppm1d can increase susceptibility to cardiac stress, we evaluated cardiac dysfunction in a mouse model where clonal hematopoiesis-associated mutations in exon 6 of Ppm1d were produced by CRISPR-Cas9 technology. Mice transplanted with hematopoietic stem cells containing the mutated Ppm1d gene exhibited augmented cardiac remodeling following the continuous infusion of Ang II (angiotensin II). Ppm1d-mutant macrophages were impaired in DDR pathway activation and displayed greater DNA damage, higher reactive oxygen species generation, and an augmented proinflammatory profile with elevations in IL (interleukin)-1β and IL-18. The administration of an NLRP3 (NLR family pyrin domain containing 3) inflammasome inhibitor to mice reversed the cardiac phenotype induced by the Ppm1d-mutated hematopoietic stem cells under conditions of Ang II-induced stress. Conclusions: A mouse model of Ppm1d-mediated t-CH was more susceptible to cardiac stress. Mechanistically, disruption of the DDR pathway led to elevations in inflammatory cytokine production, and the NLRP3 inflammasome was shown to be essential for this augmented cardiac stress response. These data indicate that t-CH involving activating mutations in PPM1D can contribute to the cardiac dysfunction observed in cancer survivors, and that anti-inflammatory therapy may have utility in treating this condition.

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application/pdf

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eng

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Lippincott Williams Se ha confirmado la validez de este valor de autoridad por un usuario

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info:eu-repo/semantics/openAccess

dc.rights.uri

https://creativecommons.org/licenses/by-nc-sa/2.5/ar/

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CARDIOTOXICITY

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CLONAL HEMATOPOIESIS

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CRISPR-CAS SYSTEMS

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DNA DAMAGE

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HEART FAILURE

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INFLAMMASOME

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MACROPHAGES

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Patología

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Medicina Básica Se ha confirmado la validez de este valor de autoridad por un usuario

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CIENCIAS MÉDICAS Y DE LA SALUD Se ha confirmado la validez de este valor de autoridad por un usuario

dc.title

The Cancer Therapy-Related Clonal Hematopoiesis Driver Gene Ppm1d Promotes Inflammation and Non-Ischemic Heart Failure in Mice

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info:eu-repo/semantics/article

dc.type

info:ar-repo/semantics/artículo

dc.type

info:eu-repo/semantics/publishedVersion

dc.date.updated

2022-08-02T17:20:27Z

dc.journal.volume

129

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6

dc.journal.pagination

684-698

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Estados Unidos Se ha confirmado la validez de este valor de autoridad por un usuario

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Philadelphia

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Fil: Yoshimitsu, Yura. University of Virginia; Estados Unidos

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Fil: Miura Yura, Emiri. University of Virginia; Estados Unidos

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Fil: Yasufumi, Katanasaka. University of Virginia; Estados Unidos

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Fil: Kyung Duk, Min. University of Virginia; Estados Unidos

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Fil: Chavkin, Nicholas. University of Virginia; Estados Unidos

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Fil: Polizio, Ariel Héctor. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. University of Virginia; Estados Unidos. Universidad de Buenos Aires. Facultad de Farmacia y Bioquímica; Argentina

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Fil: Ogawa, Hayato. University of Virginia; Estados Unidos

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Fil: Horitani, Keita. University of Virginia; Estados Unidos

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Fil: Doviak, Heather. University of Virginia; Estados Unidos

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Fil: Evans, Megan A.. University of Virginia; Estados Unidos

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Fil: Sano, Miho. University of Virginia; Estados Unidos

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Fil: Wang, Ying. University of Virginia; Estados Unidos

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Fil: Boroviak, Katharina. University of Virginia; Estados Unidos

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Fil: Philippos, George. University of Virginia; Estados Unidos

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Fil: Domingues, Ana Filipa. University of Virginia; Estados Unidos

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Fil: Vassiliou, George. University of Virginia; Estados Unidos

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Fil: Sano, Soichi. University of Virginia; Estados Unidos

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Fil: Walsh, Kenneth. University of Virginia; Estados Unidos

dc.journal.title

Circulation Research Se ha confirmado la validez de este valor de autoridad por un usuario

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info:eu-repo/semantics/altIdentifier/url/https://www.ahajournals.org/doi/full/10.1161/CIRCRESAHA.121.319314?rfr_dat=cr_pub++0pubmed&url_ver=Z39.88-2003&rfr_id=ori%3Arid%3Acrossref.org

dc.relation.alternativeid

info:eu-repo/semantics/altIdentifier/doi/http://dx.doi.org/10.1161/CIRCRESAHA.121.319314

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