Literature DB >> 23112050

Self-cleavage of human CLCA1 protein by a novel internal metalloprotease domain controls calcium-activated chloride channel activation.

Zeynep Yurtsever1, Monica Sala-Rabanal, David T Randolph, Suzanne M Scheaffer, William T Roswit, Yael G Alevy, Anand C Patel, Richard F Heier, Arthur G Romero, Colin G Nichols, Michael J Holtzman, Tom J Brett.   

Abstract

The chloride channel calcium-activated (CLCA) family are secreted proteins that regulate both chloride transport and mucin expression, thus controlling the production of mucus in respiratory and other systems. Accordingly, human CLCA1 is a critical mediator of hypersecretory lung diseases, such as asthma, chronic obstructive pulmonary disease, and cystic fibrosis, that manifest mucus obstruction. Despite relevance to homeostasis and disease, the mechanism of CLCA1 function remains largely undefined. We address this void by showing that CLCA proteins contain a consensus proteolytic cleavage site recognized by a novel zincin metalloprotease domain located within the N terminus of CLCA itself. CLCA1 mutations that inhibit self-cleavage prevent activation of calcium-activated chloride channel (CaCC)-mediated chloride transport. CaCC activation requires cleavage to unmask the N-terminal fragment of CLCA1, which can independently gate CaCCs. Gating of CaCCs mediated by CLCA1 does not appear to involve proteolytic cleavage of the channel because a mutant N-terminal fragment deficient in proteolytic activity is able to induce currents comparable with that of the native fragment. These data provide both a mechanistic basis for CLCA1 self-cleavage and a novel mechanism for regulation of chloride channel activity specific to the mucosal interface.

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Year:  2012        PMID: 23112050      PMCID: PMC3516759          DOI: 10.1074/jbc.M112.410282

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  50 in total

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2.  Association of the CLCA1 p.S357N variant with meconium ileus in European patients with cystic fibrosis.

Authors:  H P J van der Doef; M G Slieker; D Staab; B Z Alizadeh; M Seia; C Colombo; C K van der Ent; R Nickel; H Witt; R H J Houwen
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3.  Protein structure prediction on the Web: a case study using the Phyre server.

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Review 4.  Matrix metalloproteinases: fold and function of their catalytic domains.

Authors:  Cynthia Tallant; Aniebrys Marrero; F Xavier Gomis-Rüth
Journal:  Biochim Biophys Acta       Date:  2009-04-15

Review 5.  A review of the ADAMTS family, pharmaceutical targets of the future.

Authors:  Micky D Tortorella; Fransiska Malfait; Ruteja A Barve; Huey-Sheng Shieh; Anne-Marie Malfait
Journal:  Curr Pharm Des       Date:  2009       Impact factor: 3.116

6.  Both cleavage products of the mCLCA3 protein are secreted soluble proteins.

Authors:  Lars Mundhenk; Marwan Alfalah; Randolph C Elble; Bendicht U Pauli; Hassan Y Naim; Achim D Gruber
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Review 7.  Physiological roles and diseases of Tmem16/Anoctamin proteins: are they all chloride channels?

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8.  Genetic segregation of airway disease traits despite redundancy of calcium-activated chloride channel family members.

Authors:  Anand C Patel; Jeffrey D Morton; Edy Y Kim; Yael Alevy; Suzanne Swanson; Jennifer Tucker; Guaming Huang; Eugene Agapov; Thomas E Phillips; Maria E Fuentes; Antonio Iglesias; Dee Aud; John D Allard; Karim Dabbagh; Gary Peltz; Michael J Holtzman
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Review 9.  Third generation of matrix metalloprotease inhibitors: Gain in selectivity by targeting the depth of the S1' cavity.

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  40 in total

1.  The crystal structure of phosphorylated MAPK13 reveals common structural features and differences in p38 MAPK family activation.

Authors:  Zeynep Yurtsever; Suzanne M Scheaffer; Arthur G Romero; Michael J Holtzman; Tom J Brett
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2.  Modulation of TMEM16A channel activity by the von Willebrand factor type A (VWA) domain of the calcium-activated chloride channel regulator 1 (CLCA1).

Authors:  Monica Sala-Rabanal; Zeynep Yurtsever; Kayla N Berry; Colin G Nichols; Tom J Brett
Journal:  J Biol Chem       Date:  2017-04-18       Impact factor: 5.157

Review 3.  CLCA1 and TMEM16A: the link towards a potential cure for airway diseases.

Authors:  Tom J Brett
Journal:  Expert Rev Respir Med       Date:  2015-08-20       Impact factor: 3.772

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Authors:  Daniel L Kober; Kelsey M Wanhainen; Britney M Johnson; David T Randolph; Michael J Holtzman; Tom J Brett
Journal:  Protein Expr Purif       Date:  2014-02-07       Impact factor: 1.650

5.  Efficient Mammalian Cell Expression and Single-step Purification of Extracellular Glycoproteins for Crystallization.

Authors:  Daniel L Kober; Zeynep Yurtsever; Thomas J Brett
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Review 6.  The role of airway epithelial cells and innate immune cells in chronic respiratory disease.

Authors:  Michael J Holtzman; Derek E Byers; Jennifer Alexander-Brett; Xinyu Wang
Journal:  Nat Rev Immunol       Date:  2014-09-19       Impact factor: 53.106

Review 7.  Urinary bladder smooth muscle ion channels: expression, function, and regulation in health and disease.

Authors:  John Malysz; Georgi V Petkov
Journal:  Am J Physiol Renal Physiol       Date:  2020-07-06

8.  Structural and Biophysical Analysis of the CLCA1 VWA Domain Suggests Mode of TMEM16A Engagement.

Authors:  Kayla N Berry; Tom J Brett
Journal:  Cell Rep       Date:  2020-01-28       Impact factor: 9.423

Review 9.  Epithelial-Immune Cell Interactions for Drug Discovery in Chronic Obstructive Pulmonary Disease.

Authors:  Shamus P Keeler; Benjamin J Gerovac; Kangyun Wu; Xinyu Wang; Joshua R Chartock; Derek E Byers; Arthur G Romero; Michael J Holtzman
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10.  Dissecting childhood asthma with nasal transcriptomics distinguishes subphenotypes of disease.

Authors:  Alex Poole; Cydney Urbanek; Celeste Eng; Jeoffrey Schageman; Sean Jacobson; Brian P O'Connor; Joshua M Galanter; Christopher R Gignoux; Lindsey A Roth; Rajesh Kumar; Sharon Lutz; Andrew H Liu; Tasha E Fingerlin; Robert A Setterquist; Esteban G Burchard; Jose Rodriguez-Santana; Max A Seibold
Journal:  J Allergy Clin Immunol       Date:  2014-02-02       Impact factor: 10.793
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