Scott F. Walk scite author profile

Phagocytic removal of apoptotic cells occurs efficiently in vivo such that even in tissues with significant apoptosis, very few apoptotic cells are detectable 1 . This is thought to be due to the release of find-me signals by apoptotic cells that recruit motile phagocytes such as monocytes, macrophages, and dendritic cells, leading to the prompt clearance of the dying cells 2 . However, the identity and in vivo relevance of such find-me signals are not well understood. Here, through several lines of evidence, we identify extracellular nucleotides as a critical apoptotic cell find-me signal. We demonstrate the caspase-dependent release of ATP and UTP (in equimolar quantities) during the early stages of apoptosis by primary thymocytes and cell lines. Purified nucleotides at these concentrations were sufficient to induce monocyte recruitment comparable to apoptotic cell supernatants. Enzymatic removal of ATP and UTP (by apyrase or ectopic CD39 expression)Correspondence and requests for materials should be addressed to K.S.R. (ravi@virginia.edu). Supplementary Information is linked to the online version of the paper at www.nature.com/nature.Author Information Reprints and permissions information is available at www.nature.com/reprints. The authors declare no competing interests.Author Contributions M.R.E. designed, performed and analyzed most of the experiments in this study with input from K.S.R. F.B.C. performed ATP quantitation experiments. P.T.C. helped with in vivo thymic apoptosis experiments. E.R.L. carried out HPLC analysis of supernatants. S.F.W. generated the CD39 expression plasmid and stable Jurkat cell lines. D.P. conducted phagocytosis experiments. A.K. and N.L. carried out the MS analysis and provided critical support in establishing the air-pouch model system. R.I.W. and J.J.L. carried out immunohistochemical detection of apoptotic cells in the thymus. M.O. and P.S. assisted with the BMDM generation and macrophage chemotaxis experiments. T.K.H. provided critical intellectual input in the preparation of the manuscript. K.S.R. provided overall coordination with respect to conception, design and supervision of the study. K.S.R. and M.R.E. wrote the manuscript with comments from co-authors. NIH Public Access Author ManuscriptNature. Author manuscript; available in PMC 2010 April 8. Most developing thymocytes (95%) undergo apoptosis; yet in steady-state only 1-2% are detectable as apoptotic 4,5 . It is hypothesized that dying thymocytes secrete soluble factors that attract resident phagocytes to promote prompt clearance 2,6 . To determine if apoptotic thymocytes release such factors, cell-free supernatants after apoptosis induction (by antiFas/CD95 crosslinking) were assessed for their ability to attract THP-1 monocytesor primary human monocytes in a transwell migration assay ( Figure 1a and Supplemental Figure S2). Apoptotic supernatants caused a 3-fold increase in monocyte migration compared to supernatants of live thymocytes. Such release of chemotactic factors was also seen with Jurkat cells (...

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Pannexin 1 channels mediate ‘find-me’ signal release and membrane permeability during apoptosis

Chekeni

Elliott

Sandilos

et al. 2010

Nature

955

1,142

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Apoptotic cells release ‘find-me’ signals at the earliest stages of death to recruit phagocytes1. The nucleotides ATP and UTP represent one class of find-me signals2, but their mechanism of release is not known. Here, we identify the plasma membrane channel pannexin 1 (PANX1) as a mediator of find-me signal/nucleotide release from apoptotic cells. Pharmacological inhibition and siRNA-mediated knockdown of PANX1 led to decreased nucleotide release and monocyte recruitment by apoptotic cells. Conversely, PANX1 over-expression enhanced nucleotide release from apoptotic cells and phagocyte recruitment. Patch-clamp recordings showed that PANX1 was basally inactive, and that induction of PANX1 currents occurred only during apoptosis. Mechanistically, PANX1 itself was a target of effector caspases (caspases 3 and 7), and a specific caspase-cleavage site within PANX1 was essential for PANX1 function during apoptosis. Expression of truncated PANX1 (at the putative caspase cleavage site) resulted in a constitutively open channel. PANX1 was also important for the ‘selective’ plasma membrane permeability of early apoptotic cells to specific dyes3. Collectively, these data identify PANX1 as a plasma membrane channel mediating the regulated release of find-me signals and selective plasma membrane permeability during apoptosis, and a new mechanism of PANX1 activation by caspases.

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CED-12/ELMO, a Novel Member of the CrkII/Dock180/Rac Pathway, Is Required for Phagocytosis and Cell Migration

Gumienny

Brugnera

Tosello‐Trampont

et al. 2001

Cell

514

569

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The C. elegans genes ced-2, ced-5, and ced-10, and their mammalian homologs crkII, dock180, and rac1, mediate cytoskeletal rearrangements during phagocytosis of apoptotic cells and cell motility. Here, we describe an additional member of this signaling pathway, ced-12, and its mammalian homologs, elmo1 and elmo2. In C. elegans, CED-12 is required for engulfment of dying cells and for cell migrations. In mammalian cells, ELMO1 functionally cooperates with CrkII and Dock180 to promote phagocytosis and cell shape changes. CED-12/ELMO-1 binds directly to CED-5/Dock180; this evolutionarily conserved complex stimulates a Rac-GEF, leading to Rac1 activation and cytoskeletal rearrangements. These studies identify CED-12/ELMO as an upstream regulator of Rac1 that affects engulfment and cell migration from C. elegans to mammals.

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Scott F. Walk

Nucleotides released by apoptotic cells act as a find-me signal to promote phagocytic clearance

Pannexin 1 channels mediate ‘find-me’ signal release and membrane permeability during apoptosis

CED-12/ELMO, a Novel Member of the CrkII/Dock180/Rac Pathway, Is Required for Phagocytosis and Cell Migration

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