Abstract 1645: Tumor-associated macrophages enhance DNA damage repair and improve survival of murine breast cancers after irradiation

Soto, Luis Alonso Leyva; Rafat, Marjan; Colomer, M.; Giaccia, Amato J.; Graves, Edward E.

doi:10.1158/1538-7445.am2016-1645

Cited by 2 publications

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Radiation-induced rescue effect on human breast carcinoma cells is regulated by macrophages

Pathikonda,

Tian,

Cheng

et al. 2023

Preprint

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The susceptibility of cancer cells to DNA damages is influenced by their microenvironment. For example, unirradiated neighbors of irradiated cells can produce signals that reduce DNA damages. This phenomenon, known as Radiation-Induced Rescue Effect (RIRE), has profound implications on the efficacy of radiotherapy. Using bystander cells cocultured with mock-irradiated cells as a control, we demonstrated, for the first time, two types of RIRE. Conditioned medium from naive bystander cells, i.e., cells not exposed to irradiated cells, could mitigate UV-induced DNA damages in human breast carcinoma MCF7 cells, as judged by phospho-H2AX and 53BP1 immunostaining. This protective effect could be further enhanced by the prior treatment of bystander cells with factors from UV-irradiated cells. We named the former effect basal RIRE and the latter active RIRE which were cell type-dependent. As bystanders, MCF7 showed a significant active RIRE, whereas THP1-derived macrophages showed a strong basal RIRE but no active RIRE. Interestingly, RIRE of macrophages could further be modulated by polarisation. The basal RIRE of macrophages was abolished by M1 polarisation, while M2 and Tumour Associated Macrophages (TAM) demonstrated pronounced basal and active RIRE. When mixtures of MCF7 cells and polarised macrophages were used as bystanders, the overall RIRE was dictated by macrophage phenotypes: RIRE was suppressed by M1 macrophages but significantly enhanced by M2 and TAM. This study shows a previously unappreciated role of the innate immune system in RIRE. Depending on polarised phenotypes, macrophages in the tumour microenvironment can interfere with the effectiveness of radiotherapy by adjusting the RIRE magnitudes.

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Radiation-induced rescue effect on human breast carcinoma cells is regulated by macrophages

Pathikonda,

Tian,

Cheng

et al. 2023

Preprint

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Role of Base Excision Repair in Innate Immune Cells and Its Relevance for Cancer Therapy

et al. 2022

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Innate immunity is critical for immediate recognition and elimination of invading pathogens or defense against cancer cell growth. Dysregulation of innate immune systems is associated with the pathogenesis of different types of inflammatory diseases, including cancer. In addition, the maintenance of innate immune cells’ genomic integrity is crucial for the survival of all organisms. Oxidative stress generated from innate immune cells may cause self-inflicted DNA base lesions as well as DNA damage on others neighboring cells, including cancer cells. Oxidative DNA base damage is predominantly repaired by base excision repair (BER). BER process different types of DNA base lesions that are presented in cancer and innate immune cells to maintain genomic integrity. However, mutations in BER genes lead to impaired DNA repair function and cause insufficient genomic integrity. Moreover, several studies have implicated that accumulation of DNA damage leads to chromosomal instability that likely activates the innate immune signaling. Furthermore, dysregulation of BER factors in cancer cells modulate the infiltration of innate immune cells to the tumor microenvironment. In the current review, the role of BER in cancer and innate immune cells and its impact on innate immune signaling within the tumor microenvironment is summarized. This is a special issue that focuses on DNA damage and cancer therapy to demonstrate how BER inhibitor or aberrant repair modulates innate inflammatory response and impact immunotherapy approaches. Overall, the review provides substantial evidence to understand the impact of BER in innate immune response dynamics within the current immune-based therapeutic strategy.

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Abstract 1645: Tumor-associated macrophages enhance DNA damage repair and improve survival of murine breast cancers after irradiation

Cited by 2 publications

References 0 publications

Radiation-induced rescue effect on human breast carcinoma cells is regulated by macrophages

Radiation-induced rescue effect on human breast carcinoma cells is regulated by macrophages

Role of Base Excision Repair in Innate Immune Cells and Its Relevance for Cancer Therapy

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