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      Uncovering human mixed lineage kinase domain-like activation in necroptosis.

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          Abstract

          MLKL and its obligate upstream receptor interacting protein kinase 3 are essential components of necroptosis. It is well established that MLKL is the executioner of plasma membrane rupture in necroptosis. In healthy cells MLKL is dormant. Several dormant configurations have emerged from high-resolution structural studies revealing distinct mechanisms of MLKL autoinhibition in mammals. MLKL is activated through the concerted actions of receptor interacting protein kinase 3, which phosphorylates MLKL, and, in the case of the human pathway, inositol phosphate (IP) metabolites synthesized by the IP kinases of the IP metabolic pathway. Here, we highlight recent progress toward understanding the mechanisms of regulation of human MLKL, and survey the latest opportunities for targeting MLKL in pathophysiology.

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          Author and article information

          Journal
          Journal ID (iso-abbrev): Future Med Chem
          Title: Future medicinal chemistry
          Publisher: Informa UK Limited
          ISSN (Electronic): 1756-8927
          ISSN (Print): 1756-8919
          Publication date (Electronic): Nov 2019
          Volume: 11
          Issue: 21
          Affiliations
          [1 ] Departments of Structural Biology & Chemical Biology & Therapeutics, St. Jude Children's Research Hospital, Memphis, TN 38105, USA.
          Article
          DOI: 10.4155/fmc-2019-0229
          PubMed ID: 31713433
          SO-VID: 4fe92b7d-a915-489b-895a-fc8061e1bf6b
          History

          Keywords: phosphorylation,chemical probes,mixed lineage kinase domain-like (MLKL),necroptosis,oligomerization,plasma membrane rupture,programmed cell death,pseudokinase,receptor interacting protein kinase 3 (RIPK3),structural biology
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          Keywords: phosphorylation, chemical probes, mixed lineage kinase domain-like (MLKL), necroptosis, oligomerization, plasma membrane rupture, programmed cell death, pseudokinase, receptor interacting protein kinase 3 (RIPK3), structural biology

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