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Telomeres, aging, and cancer: the big picture. Blood The role of telomeres in human health and disease is yet to be fully understood. The limitations of mouse models for the study of human telomere biology and difficulties in accurately measuring the length of telomere repeats in chromosomes and cells have diverted attention from many important and relevant observations. The goal of this perspective is to summarize some of these observations and to discuss the antagonistic role of telomere loss in aging and cancer in the context of developmental biology, cell turnover, and evolution. It is proposed that both damage to DNA and replicative loss of telomeric DNA contribute to aging in humans, with the differences in leukocyte telomere length between humans being linked to the risk of developing specific diseases. These ideas are captured in the Telomere Erosion in Disposable Soma theory of aging proposed herein. 10.1182/blood.2021014299
How I treat relapsed multiple myeloma. Blood Despite recent advances, multiple myeloma remains an incurable disease for most patients, and initial remission will be followed by relapses requiring therapy. For many, there will be several remissions and relapses until resistance develops to all available therapies. With the introduction of several new agents, myeloma treatment has changed drastically, and there are new options for the management of relapsed or refractory disease, including new drug classes with distinct mechanisms of action and cellular therapies. However, resistance to major drug classes used in first-line remains the most critical factor for the choice of treatment at relapse. Continuous lenalidomide-based therapy is used extensively at first-line, and resistance to lenalidomide has become the key factor for the choice of salvage therapy. Daratumumab is increasingly used in first-line, and soon patients that relapse while on daratumumab will become a common challenge. Three-drug regimens are the standard approach to manage relapsed disease. Adding drugs with new mechanisms of activity can improve outcomes and overcomes class resistance, but, until now, while biology is important, it can offer only limited guidance for the choice of therapy. 10.1182/blood.2020008734
Innate Immunity and Cancer Pathophysiology. Annual review of pathology Chronic inflammation increases the risk of several cancers, including gastric, colon, and hepatic cancers. Conversely, tumors, similar to tissue injury, trigger an inflammatory response coordinated by the innate immune system. Cellular and molecular mediators of inflammation modulate tumor growth directly and by influencing the adaptive immune response. Depending on the balance of immune cell types and signals within the tumor microenvironment, inflammation can support or restrain the tumor. Adding to the complexity, research from the past two decades has revealed that innate immune cells are highly heterogeneous and plastic, with variable phenotypes depending on tumor type, stage, and treatment. The field is now on the cusp of being able to harness this wealth of data to () classify tumors on the basis of their immune makeup, with implications for prognosis, treatment choice, and clinical outcome, and () design therapeutic strategies that activate antitumor immune responses by targeting innate immune cells. 10.1146/annurev-pathmechdis-032221-115501
Lymph node colonization induces tumor-immune tolerance to promote distant metastasis. Cell For many solid malignancies, lymph node (LN) involvement represents a harbinger of distant metastatic disease and, therefore, an important prognostic factor. Beyond its utility as a biomarker, whether and how LN metastasis plays an active role in shaping distant metastasis remains an open question. Here, we develop a syngeneic melanoma mouse model of LN metastasis to investigate how tumors spread to LNs and whether LN colonization influences metastasis to distant tissues. We show that an epigenetically instilled tumor-intrinsic interferon response program confers enhanced LN metastatic potential by enabling the evasion of NK cells and promoting LN colonization. LN metastases resist T cell-mediated cytotoxicity, induce antigen-specific regulatory T cells, and generate tumor-specific immune tolerance that subsequently facilitates distant tumor colonization. These effects extend to human cancers and other murine cancer models, implicating a conserved systemic mechanism by which malignancies spread to distant organs. 10.1016/j.cell.2022.04.019