Literature DB >> 8380999

Effects of CoA and acyl-CoAs on GTP-dependent Ca2+ release and vesicle fusion in rat liver microsomal vesicles.

J G Comerford1, A P Dawson.   

Abstract

(1) CoA (IC50 23 microM) and acyl-CoAs (IC50 values 15-18 microM) inhibit GTP-dependent vesicle fusion in rat liver microsomal vesicles. Acyl-CoAs of carbon chain length C8 and C20 are much less effective than acyl-CoAs of carbon chain length C14-C18. The effect of CoA is mimicked by dephospho-CoA, but not by desulpho-CoA. High acyl-CoA concentrations (50 microM) appear to favour formation of small vesicles (budding), while 50 microM CoA does not. (2) Low concentrations of CoA (EC50 2 microM) and palmitoyl-CoA (10 microM) cause re-accumulation of Ca2+ released in response to GTP. This re-accumulation is into an Ins(1,4,5)P3-sensitive compartment. By investigation of the effects of CoA and palmitoyl-CoA on the thapsigargin-induced passive leak rate of Ca2+, and on the latency of the mannose-6-phosphatase of the vesicles, we conclude that CoA and palmitoyl-CoA cause decreased vesicle permeability rather than stimulation of Ca2+ pumping activity. (3) It is suggested that GTP-induced membrane fusion in rat liver microsomes involves an as yet uncharacterized acylation-deacylation reaction which is required to produce complete vesicle sealing.

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Year:  1993        PMID: 8380999      PMCID: PMC1132205          DOI: 10.1042/bj2890561

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  23 in total

1.  GTP-mediated Ca2+ release in rough endoplasmic reticulum. Correlation with a GTP-sensitive increase in membrane permeability.

Authors:  C V Nicchitta; S K Joseph; J R Williamson
Journal:  Biochem J       Date:  1987-12-15       Impact factor: 3.857

2.  Involvement of GTP-binding "G" proteins in transport through the Golgi stack.

Authors:  P Melançon; B S Glick; V Malhotra; P J Weidman; T Serafini; M L Gleason; L Orci; J E Rothman
Journal:  Cell       Date:  1987-12-24       Impact factor: 41.582

3.  The specificity of glucose 6-phosphatase of intact liver microsomes.

Authors:  W J Arion; B K Wallin; P W Carlson; A J Lange
Journal:  J Biol Chem       Date:  1972-04-25       Impact factor: 5.157

4.  GTP enhances inositol trisphosphate-stimulated Ca2+ release from rat liver microsomes.

Authors:  A P Dawson
Journal:  FEBS Lett       Date:  1985-06-03       Impact factor: 4.124

5.  Possible role for fatty acyl-coenzyme A in intracellular protein transport.

Authors:  B S Glick; J E Rothman
Journal:  Nature       Date:  1987 Mar 19-25       Impact factor: 49.962

6.  Detection of 23-27 kDa GTP-binding proteins in platelets and other cells.

Authors:  R P Bhullar; R J Haslam
Journal:  Biochem J       Date:  1987-07-15       Impact factor: 3.857

7.  Polyethylene glycol-stimulated microsomal GTP hydrolysis. Relationship to GTP-mediated Ca2+ release.

Authors:  C V Nicchitta; S K Joseph; J R Williamson
Journal:  FEBS Lett       Date:  1986-12-15       Impact factor: 4.124

8.  Inositol (1,4,5)trisphosphate-promoted Ca2+ release from microsomal fractions of rat liver.

Authors:  A P Dawson; R F Irvine
Journal:  Biochem Biophys Res Commun       Date:  1984-05-16       Impact factor: 3.575

9.  The mechanism of action of GTP on Ca2+ efflux from rat liver microsomal vesicles.

Authors:  A P Dawson; G Hills; J G Comerford
Journal:  Biochem J       Date:  1987-05-15       Impact factor: 3.857

10.  The effect of GTP on inositol 1,4,5-trisphosphate-stimulated Ca2+ efflux from a rat liver microsomal fraction. Is a GTP-dependent protein phosphorylation involved?

Authors:  A P Dawson; J G Comerford; D V Fulton
Journal:  Biochem J       Date:  1986-03-01       Impact factor: 3.857
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  9 in total

Review 1.  Role of long-chain fatty acyl-CoA esters in the regulation of metabolism and in cell signalling.

Authors:  N J Faergeman; J Knudsen
Journal:  Biochem J       Date:  1997-04-01       Impact factor: 3.857

2.  Slow kinetics of inositol 1,4,5-trisphosphate-induced Ca2+ release: is the release 'quantal' or 'non-quantal'?

Authors:  L Missiaen; H De Smedt; J B Parys; I Sienaert; H Sipma; S Vanlingen; R Casteels
Journal:  Biochem J       Date:  1997-04-01       Impact factor: 3.857

3.  Acyl-CoA synthetase activity in liver microsomes from calcium-deficient rats.

Authors:  C A Marra; M J de Alaniz
Journal:  Lipids       Date:  1999-04       Impact factor: 1.880

Review 4.  Role of acylCoA binding protein in acylCoA transport, metabolism and cell signaling.

Authors:  J Knudsen; M V Jensen; J K Hansen; N J Faergeman; T B Neergaard; B Gaigg
Journal:  Mol Cell Biochem       Date:  1999-02       Impact factor: 3.396

5.  Effects of CoA and acyl-CoA on Ca(2+)-permeability of endoplasmic-reticulum membranes from rat liver.

Authors:  G T Rich; J G Comerford; S Graham; A P Dawson
Journal:  Biochem J       Date:  1995-03-15       Impact factor: 3.857

Review 6.  Calcium: its modulation in liver by cross-talk between the actions of glucagon and calcium-mobilizing agonists.

Authors:  F L Bygrave; A Benedetti
Journal:  Biochem J       Date:  1993-11-15       Impact factor: 3.857

7.  A novel cycle involving fatty acyl-coenzyme A regulates asialoglycoprotein receptor activity in permeable hepatocytes.

Authors:  P H Weigel; J D Medh; J A Oka
Journal:  Mol Biol Cell       Date:  1994-02       Impact factor: 4.138

8.  Fatty acyl-CoA esters inhibit glucose-6-phosphatase in rat liver microsomes.

Authors:  R Fulceri; A Gamberucci; H M Scott; R Giunti; A Burchell; A Benedetti
Journal:  Biochem J       Date:  1995-04-15       Impact factor: 3.857

9.  CoA and fatty acyl-CoA derivatives mobilize calcium from a liver reticular pool.

Authors:  R Fulceri; A Gamberucci; G Bellomo; R Giunti; A Benedetti
Journal:  Biochem J       Date:  1993-11-01       Impact factor: 3.857
  9 in total

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