ISSN:
0730-2312
Keywords:
coated vesicles
;
clathrin
;
assembly polypeptides
;
coat reassembly
;
elastase
;
protein kinase
;
Life and Medical Sciences
;
Cell & Developmental Biology
Source:
Wiley InterScience Backfile Collection 1832-2000
Topics:
Biology
,
Chemistry and Pharmacology
,
Medicine
Notes:
We have previously identified a fraction containing several assembly polypeptides (AP) that promotes reassembly of clathrin into vesicle-free coat structures [Zaremba S, Keen JH: J Cell Biol 97:1339, 1983]. The AP are prepared from purified bovine brain-coated vesicles by extraction with 0.5 M TRIS-HCl followed by Sepharose CL-4B column chromatography. Centrifugation in sucrose gradients under nonassembly conditions supports earlier observations suggesting that four active polypeptides in the AP preparation, of Mr ∼ 110,000, 100,000, 50,000, and 16,500 are present in a discrete complex that is incorporated as a unit into reassembled coats. The 16,500-dalton polypeptide does not coelectrophorese with authentic bovine brain calmodulin and does not exhibit calmodulin's Ca2+-induced shift in electrophoretic mobility. When the partially purified AP fraction was digested with elastase, the Mr ∼ 110,000 and 100,000 polypeptides were rapidly degraded with little or no effect on the Mr ∼ 50,000 and 16,500 bands. This treatment abolished the in vitro coat-forming ability of the AP fraction and the loss of activity closely parallels the loss of the Mr ∼ 100,000 band. Disappearance of the Mr ∼ 110,000 and 100,000 bands is accompanied by the generation of new bands at Mr ∼ 76,000 and 65,000. When the elastase-treated AP is examined by sucrose gradient sedimentation in nonassembly buffers, the new bands continue to cosediment with the Mr ∼ 50,000 and 16,500 polypeptides. This indicates that the elastase digestion has cleaved off a fragment of the Mr ∼ 110,000 and 100,000 bands, leaving behind a truncated, inactive AP complex. A protein kinase activity has been detected in coated vesicle preparations that utilizes the 50,000-dalton AP as its preferred substrate [Keen JH, Zaremba S: J Cell Biol 97:174a, 1983]. Elastase treatment does not abolish this activity, indicating that the kinase by itself is not sufficient for maintaining reassembly activity.
Additional Material:
7 Ill.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1002/jcb.240280108
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