Dhw. Ng et al., DEMONSTRATION OF A DIRECT INTERACTION BETWEEN P56(LCK) AND THE CYTOPLASMIC DOMAIN OF CD45 IN-VITRO, The Journal of biological chemistry, 271(3), 1996, pp. 1295-1300
p56(lck) is a potential in vivo substrate for the tyrosine-specific ph
osphatase, CD45. In this study, recombinant purified p56(lck) was foun
d to specifically associate with recombinant CD45 cytoplasmic domain p
rotein, but not to the cytoplasmic domain of another related tyrosine
phosphatase, receptor protein-tyrosine phosphatase of. Under equilibri
um binding conditions, the binding was saturable and occurred at a 1:1
molar stoichiometry. A fusion protein containing only the amino-termi
nal region of p56(lck) (residues 34-150) also bound to recombinant CD4
5, and further analysis of this region indicated that glutathione S-tr
ansferase fusion proteins of the unique amino-terminal region and the
SH2 domain, but not the SH3 domain of p56(lck), bound to recombinant C
D45. The SH2 domain protein bound with a higher affinity than the amin
o terminal region, but both were able to compete for the binding of p5
6(lck) to CD45, and when added together worked synergistically to comp
ete for p56(lck) binding. The SH2 domain interaction with CD45 was spe
cific as glutathione S-transferase-SH2 fusion proteins from p85 alpha
subunit of phosphatidylinositol 3-kinase and SHC did not bind to CD45.
In addition, this interaction occurred in the absence of any detectab
le tyrosine phosphorylation on CD45, suggesting a nonconventional SH2
domain interaction. p56(lck) is a potential in vivo substrate for the
tyrosine-specific phosphatase, CD45. In this study, recombinant purifi
ed p56(lck) was found to specifically associate with recombinant CD45
cytoplasmic domain protein, but not to the cytoplasmic domain of anoth
er related tyrosine phosphatase, receptor protein-tyrosine phosphatase
alpha. Under equilibrium binding conditions, the binding was saturabl
e and occurred at a 1:1 molar stoichiometry. A fusion protein containi
ng only the amino-terminal region of p56(lck) (residues 34-150) also b
ound to recombinant CD45, and further analysis of this region indicate
d that glutathione S-transferase fusion proteins of the unique amino-t
erminal region and the SH2 domain, but not the SH3 domain of p56(lck),
bound to recombinant CD45. The SH2 domain protein bound with a higher
affinity than the amino terminal region, but both were able to compet
e for the binding of p56(lck) to CD45, and when added together worked
synergistically to compete for p56(lck) binding. The SH2 domain intera
ction with CD45 was specific as glutathione S-transferase-SH2 fusion p
roteins from p85 alpha subunit of phosphatidylinositol 3-kinase and SH
C did not bind to CD45. In addition, this interaction occurred in the
absence of any detectable tyrosine phosphorylation on CD45, suggesting
a nonconventional SH2 domain interaction,