Rebecca Cook
Faculty Member
Last active: 4/15/2019

Functional characterization of domains contained in hepatocyte growth factor-like protein.

Waltz SE, McDowell SA, Muraoka RS, Air EL, Flick LM, Chen YQ, Wang MH, Degen SJ
J Biol Chem. 1997 272 (48): 30526-37

PMID: 9374547 · DOI:10.1074/jbc.272.48.30526

To delineate the functional protein domains necessary for the biological activity of hepatocyte growth factor-like protein (HGFL), we created various site-directed and deletion mutated cDNAs coding for this protein. Wild-type and mutated versions of HGFL were produced after transfection of the corresponding cDNAs into tissue culture cells. The biological importance of the domains within HGFL was then examined by addition of recombinant wild-type or mutant forms of HGFL to assays aimed at elucidating regions involved in the stimulation of DNA synthesis, the induction of shape changes in macrophages, and the ability to stimulate cell scattering. Mutant proteins lacking the serine protease-like domain (light chain) were not biologically active in any of the assays tested and could not compete with wild-type HGFL in cell scattering experiments. These data, in addition to direct enzyme-linked immunosorbent assay analyses, suggest that the light chain may play an important role in the interaction of HGFL with its receptor, Ron. Elimination of the proposed protease cleavage site between the heavy and light chains (by mutation of Arg-483 to Glu) produced a protein with activity comparable to wild-type HGFL. Further studies with this mutated protein uncovered an additional proteolytic cleavage site that produces biologically active protein. Deletion of the various kringle domains or the amino-terminal hairpin loop had various effects in the multiple assays. These data suggest that the heavy chain may play a pivotal role in determining the functional aspects of HGFL.

MeSH Terms (18)

Animals Cell Line Cell Size CHO Cells Cricetinae Growth Substances Hepatocyte Growth Factor Humans Macrophages Mice Mutagenesis, Site-Directed Proto-Oncogene Proteins Receptor Protein-Tyrosine Kinases Receptors, Cell Surface Recombinant Proteins Scattering, Radiation Sequence Deletion Structure-Activity Relationship

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