M. Ono et al., PURIFICATION AND CHARACTERIZATION OF TRANSMEMBRANE FORMS OF HEPARIN-BINDING EGF-LIKE GROWTH-FACTOR, The Journal of biological chemistry, 269(49), 1994, pp. 31315-31321
Heparin-binding epidermal growth factor-like growth factor (HB-EGF), w
hose cDNA has a predicted 208-codon open reading frame, is synthesized
as a membrane spanning precursor that is processed to release mature
mitogenic proteins of similar to 73-87 amino acids in length. Previous
work has focused on the structural and biological properties of secre
ted HB-EGF. In this study, human recombinant transmembrane HB-EGF, pro
duced by expression of HB-EGF(1-208) cDNA in a baculovirus system, has
been isolated, purified, and characterized structurally and biologica
lly. Two isoforms of transmembrane HB-EGF (HB-EGF(TM)) were purified f
rom membrane fractions of infected insect cells by a combination of he
parin affinity chromatography and reversed-phase high performance liqu
id chromatography. The isoform designated as HB-EGF(TM-I), a 21.5-kDa
protein, yielded no N-terminal sequence, suggesting that it is N-termi
nally blocked. However, KB-EGF(TM-II), a 24-kDa protein, was N-termina
lly sequenced and found to be initiated at Asp(63) in the 208-amino ac
id residue primary translation product. This N terminus is the same as
that determined for a 18-kDa isoform of secreted HB-EGF purified from
the conditioned medium of insect cells expressing HB-EGF(1-149) cDNA
and is also identical to the N terminus of the longest form of secrete
d HB-EGF initially purified from human macrophage-like U-937 cell cond
itioned medium. HB-EGF(TM-II) cross-reacted on a Western blot with an
antibody directed against the 16 C-terminal amino acids of the cytopla
smic tail of HB-EGF, indicating that it contains a putative transmembr
ane domain. HB-EGF(TM-II) was bioactive and stimulated the proliferati
on of BALB/c 3T3 cells and smooth muscle cells and the motility of smo
oth muscle cells, albeit with similar to 10-25% of the specific activi
ty of secreted HB-EGF isoforms. We concluded that transmembrane HB-EGF
is bioactive when isolated, consistent with the possibility of its fu
nctioning as a juxtacrine growth factor when still tethered to the cel
l.