Dying cells actively regulate adaptive immune responses

Yatim, Nader; Cullen, Sean P.; Albert, Matthew L.

doi:10.1038/nri.2017.9

Cited by 339 publications

(280 citation statements)

References 177 publications

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“…Moreover, it is likely that the molecular links between degradative autophagy and non-autophagic cellular functions may exhibit considerable degrees of context dependence (i.e., they may vary considerably depending on cell type, differentiation stage, etc.). An intriguing possibility is that cells may actively route disposable cytosolic material to autophagic degradation versus non-canonical secretion as a means to control the emission of damage signals into the microenvironment (Galluzzi et al, 2017c;Yatim et al, 2017). Although preclinical data in support of this notion is emerging, additional work is required to clarify the mutual regulation of autophagy and non-autophagic pathways and its pathophysiological implications.…”

Section: Discussionmentioning

confidence: 99%

Autophagy-Independent Functions of the Autophagy Machinery

Galluzzi

Green

2019

Cell

690

479

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Macroautophagy (herein referred to as autophagy) is an evolutionary ancient mechanism that culminates with the lysosomal degradation of superfluous or potentially dangerous cytosolic entities. Over the past 2 decades, the molecular mechanisms underlying several variants of autophagy have been characterized in detail. Accumulating evidence suggests that most, if not all, components of the molecular machinery for autophagy also mediate autophagy-independent functions. Here, we discuss emerging data on the non-autophagic functions of autophagy-relevant proteins. a Referring to bacteria replicating in the cytoplasm of infected cells Cell 177, June 13, 2019 1685 a Partially unrelated to membrane biology b Referring to the replication of pathogens in the cytoplasm of infected cells Cell 177,

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Section: Discussionmentioning

confidence: 99%

Autophagy-Independent Functions of the Autophagy Machinery

Galluzzi

Green

2019

Cell

690

479

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“…The spectrum of molecules sensed by PRR is not limited to exogenous PAMP but includes host‐derived endogenous molecules which are released in response to certain kinds of cellular stress and death . In this scenario, specific damage‐associated molecular patterns (DAMP) released by stressed and dying cells during the course of ICD are sensed by PRR and can thus act as adjuvants that by themselves initiate innate immune response . Among the known features of ICD, the extracellular death metabolite ATP plays a pivotal role.…”

Section: Cell Death and Danger Signalingmentioning

confidence: 99%

Extracellular nucleosides and nucleotides as immunomodulators

Loos

Liu

Kepp

2017

Immunological Reviews

107

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Some anticancer agents induce immunogenic cell death that is accompanied by the emission of danger signals into the tumor microenvironment, thus attracting and activating innate immune effectors and finally inducing anticancer immunity. The release of extracellular nucleosides such as adenosine triphosphate (ATP) from the tumor in response to anticancer therapy plays a pivotal role in the attraction of antigen presenting cells and the activation of inflammasome-mediated proinflammatory cascades. In contrast, the ectonucleotidase-catalyzed phosphohydrolysis of nucleotides to nucleosides reduces the extracellular availability of nucleotides, hence limiting the recruitment and activation of antigen-presenting cells. In addition, the (over-)production of nucleosides including adenosine by ectonucleotidases located on cancer cells and regulatory T cells can induce immunosuppression, as adenosine directly inhibits the proliferation and activation of effector T cells. Here, we discuss the importance of death metabolites for immunomodulation in general, and the role of the purine nucleotide ATP and its derivative adenosine in particular. In addition, we provide an overview on therapeutic interventions that reinstate tumor immunogenicity in conditions where nucleotide-dependent immunostimulation is obstructed.

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“…CD8+ T cells are the major anticancer effector cells in cancer microenvironment 1. However, on the persistently chronic stimulation of tumour antigen, CD8+ T cells are generally in dysfunctional states characterised by reduced proliferation and activation, and impaired anticancer effect, termed T cell exhaustion 2 3.…”

Section: Introductionmentioning

confidence: 99%