Expression cloning of a diphtheria toxin receptor: identity with a heparin-binding EGF-like growth factor precursor
JG Naglich, JE Metherall, DW Russell, L Eidels - Cell, 1992 - Elsevier
JG Naglich, JE Metherall, DW Russell, L Eidels
Cell, 1992•ElsevierA monkey cDNA (pDTS) encoding a diphtheria toxin (DT) sensitivity determinant was
isolated by expression cloning in mouse LM cells. Mouse cells are naturally resistant to DT,
because they lack functional cell surface receptors for the toxin. Unlike wild-type LM cells,
pDTS-transfected mouse cells are extremely toxin sensitive and specifically bind
radioiodinated DT. Intoxication of the transfected cells requires receptor-mediated
endocytosis of the bound toxin. The cDNA is predicted to encode an integral membrane …
isolated by expression cloning in mouse LM cells. Mouse cells are naturally resistant to DT,
because they lack functional cell surface receptors for the toxin. Unlike wild-type LM cells,
pDTS-transfected mouse cells are extremely toxin sensitive and specifically bind
radioiodinated DT. Intoxication of the transfected cells requires receptor-mediated
endocytosis of the bound toxin. The cDNA is predicted to encode an integral membrane …
Abstract
A monkey cDNA (pDTS) encoding a diphtheria toxin (DT) sensitivity determinant was isolated by expression cloning in mouse L-M cells. Mouse cells are naturally resistant to DT, because they lack functional cell surface receptors for the toxin. Unlike wild-type L-M cells, pDTS-transfected mouse cells are extremely toxin sensitive and specifically bind radioiodinated DT. Intoxication of the transfected cells requires receptor-mediated endocytosis of the bound toxin. The cDNA is predicted to encode an integral membrane protein that is identical to the precursor of a heparin-binding EGF-like growth factor. The DT sensitivity protein is thus a growth factor precursor that DT exploits as a receptor.
Elsevier