Escape from senescence: molecular basis and therapeutic ramifications

Evangelou, Konstantinos; Belogiannis, Konstantinos; Papaspyropoulos, Angelos; Petty, Russell; Gorgoulis, Vassilis G.

doi:10.1002/path.6164

Cited by 14 publications

(4 citation statements)

References 166 publications

(331 reference statements)

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“…Senescence induction is a mode of breast cancer survival that is garnering increased attention due to studies suggesting that reversible senescence may function as a mechanism of tumor dormancy ( 88 , 116 – 119 ). Although the relationship between senescence and antiestrogen resistance is not adequately defined, senescence is known to support dormant tumor cell survival ( 120 ), contribute to apoptosis resistance ( 121 ), cellular stemness, tumor aggressiveness ( 122 ), and the metastatic niche ( 123 ).…”

Section: Senescence and Breast Cancer Cell Survivalmentioning

confidence: 99%

“…Importantly, autophagy and/or senescence induction have been identified as a pro-survival response to most antiestrogen treatments and molecular targeting currently being used for the treatment of ER + breast cancer. Although senescence was originally identified as a terminal state of cancer cells, recent studies have highlighted that senescence can be reversible, and thus, is a potential mechanism breast cancer cells can utilize to escape antiestrogeninduced and chemotherapy-induced stress (87)(88)(89). Thus, these "survival" response pathways often precede the genetic and epigenetic alterations required to escape cytostasis (likely contributing to tumor dormancy) and activate a functional cell cycle, with subsequent breast cancer cell proliferation.…”

Section: Autophagy and Breast Cancermentioning

confidence: 99%

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Autophagy and senescence facilitate the development of antiestrogen resistance in ER positive breast cancer

McGrath,

Abolhassani,

Guy

et al. 2024

Front. Endocrinol.

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Estrogen receptor positive (ER+) breast cancer is the most common breast cancer diagnosed annually in the US with endocrine-based therapy as standard-of-care for this breast cancer subtype. Endocrine therapy includes treatment with antiestrogens, such as selective estrogen receptor modulators (SERMs), selective estrogen receptor downregulators (SERDs), and aromatase inhibitors (AIs). Despite the appreciable remission achievable with these treatments, a substantial cohort of women will experience primary tumor recurrence, subsequent metastasis, and eventual death due to their disease. In these cases, the breast cancer cells have become resistant to endocrine therapy, with endocrine resistance identified as the major obstacle to the medical oncologist and patient. To combat the development of endocrine resistance, the treatment options for ER+, HER2 negative breast cancer now include CDK4/6 inhibitors used as adjuvants to antiestrogen treatment. In addition to the dysregulated activity of CDK4/6, a plethora of genetic and biochemical mechanisms have been identified that contribute to endocrine resistance. These mechanisms, which have been identified by lab-based studies utilizing appropriate cell and animal models of breast cancer, and by clinical studies in which gene expression profiles identify candidate endocrine resistance genes, are the subject of this review. In addition, we will discuss molecular targeting strategies now utilized in conjunction with endocrine therapy to combat the development of resistance or target resistant breast cancer cells. Of approaches currently being explored to improve endocrine treatment efficacy and patient outcome, two adaptive cell survival mechanisms, autophagy, and “reversible” senescence, are considered molecular targets. Autophagy and/or senescence induction have been identified in response to most antiestrogen treatments currently being used for the treatment of ER+ breast cancer and are often induced in response to CDK4/6 inhibitors. Unfortunately, effective strategies to target these cell survival pathways have not yet been successfully developed. Thus, there is an urgent need for the continued interrogation of autophagy and “reversible” senescence in clinically relevant breast cancer models with the long-term goal of identifying new molecular targets for improved treatment of ER+ breast cancer.

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Section: Senescence and Breast Cancer Cell Survivalmentioning

confidence: 99%

Section: Autophagy and Breast Cancermentioning

confidence: 99%

Autophagy and senescence facilitate the development of antiestrogen resistance in ER positive breast cancer

McGrath,

Abolhassani,

Guy

et al. 2024

Front. Endocrinol.

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“…The SASP secretome includes a variety of proinflammatory mediators, chemokines, growth factors, angiogenic factors, bioactive lipids, and MMPs that may act in a paracrine or autocrine manner to induce senescence in vivo, triggering a positive-feedback loop that leads to the perpetuation of the inflammatory response [ 197 ]. Senescent cells have been identified in the context of human diseases, including COVID-19 [ 198 ], where senescent cells were detected in SARS-CoV-2-infected lung tissue, and Hodgkin lymphoma, where a high percentage of senescent cells were detected in the affected lymph nodes [ 199 , 200 ]. Our group has reported the presence of senescent cells in biopsy-proven GCA specimens [ 188 ].…”

Section: Chronic Inflammatory Components On the Tissue Levelmentioning

confidence: 99%

Current Insights into Tissue Injury of Giant Cell Arteritis: From Acute Inflammatory Responses towards Inappropriate Tissue Remodeling

Palamidas,

Chatzis,

Papadaki

et al. 2024

Cells

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Giant cell arteritis (GCA) is an autoimmune disease affecting large vessels in patients over 50 years old. It is an exemplary model of a classic inflammatory disorder with IL-6 playing the leading role. The main comorbidities that may appear acutely or chronically are vascular occlusion leading to blindness and thoracic aorta aneurysm formation, respectively. The tissue inflammatory bulk is expressed as acute or chronic delayed-type hypersensitivity reactions, the latter being apparent by giant cell formation. The activated monocytes/macrophages are associated with pronounced Th1 and Th17 responses. B-cells and neutrophils also participate in the inflammatory lesion. However, the exact order of appearance and mechanistic interactions between cells are hindered by the lack of cellular and molecular information from early disease stages and accurate experimental models. Recently, senescent cells and neutrophil extracellular traps have been described in tissue lesions. These structures can remain in tissues for a prolonged period, potentially favoring inflammatory responses and tissue remodeling. In this review, current advances in GCA pathogenesis are discussed in different inflammatory phases. Through the description of these—often overlapping—phases, cells, molecules, and small lipid mediators with pathogenetic potential are described.

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“…The authors discuss in detail the individual secondary alterations described in mesenchymal tumours and how they promote sarcomagenesis mechanistically, organised by the hallmarks of cancer processes. The third review article on cancer mechanisms comes from Gorgoulis and colleagues in Athens, Greece, and in Manchester, Dundee, and Surrey, UK [11]. The authors discuss the recent advances in understanding how cellular senescence acts as a barrier to carcinogenesis, how senescence is induced by a variety of carcinogenic pathways, and the mechanisms by which cells can escape from senescence, a process that is distinct from senescence bypass.…”

Section: Recent Advances In Cancer Mechanisms and Their Implicationsmentioning

confidence: 99%

Recent Advances in Pathology: the 2023 Annual Review Issue of The Journal of Pathology

Jones

Poulsom

Coates

2023

The Journal of Pathology

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The 2023 Annual Review Issue of The Journal of Pathology, Recent Advances in Pathology, contains 12 invited reviews on topics of current interest in pathology. This year, our subjects include immuno‐oncology and computational pathology approaches for diagnostic and research applications in human disease. Reviews on the tissue microenvironment include the effects of apoptotic cell‐derived exosomes, how understanding the tumour microenvironment predicts prognosis, and the growing appreciation of the diverse functions of fibroblast subtypes in health and disease. We also include up‐to‐date reviews of modern aspects of the molecular basis of malignancies, and our final review covers new knowledge of vascular and lymphatic regeneration in cardiac disease. All of the reviews contained in this issue are written by expert groups of authors selected to discuss the recent progress in their particular fields and all articles are freely available online (https://pathsocjournals.onlinelibrary.wiley.com/journal/10969896). © 2023 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

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Escape from senescence: molecular basis and therapeutic ramifications

Cited by 14 publications

References 166 publications

Autophagy and senescence facilitate the development of antiestrogen resistance in ER positive breast cancer

Autophagy and senescence facilitate the development of antiestrogen resistance in ER positive breast cancer

Current Insights into Tissue Injury of Giant Cell Arteritis: From Acute Inflammatory Responses towards Inappropriate Tissue Remodeling

Recent Advances in Pathology: the 2023 Annual Review Issue of The Journal of Pathology

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