Cm. Dipersio et al., Functional comparison of the alpha 3A and alpha 3B cytoplasmic domain variants of the chicken alpha 3 integrin subunit, EXP CELL RE, 268(1), 2001, pp. 45-60
Integrin alpha3 beta1 can be alternatively spliced to generate alpha 3A and
alpha 3B cytoplasmic domain variants that are conserved among vertebrates.
To identify distinct functions of these variants, we transfected cells wit
h intact alpha3 integrins or chimeric receptors. alpha 3A beta1 and alpha 3
B beta1 each localized to focal contacts in keratinocytes on an extracellul
ar matrix rich in laminin-5, to which both are known to bind with high affi
nity. However, alpha 3B accumulated intracellularly in keratinocytes on col
lagen, suggesting that laminin binding may stabilize alpha 3B beta1 surface
expression. Neither alpha3 cytoplasmic domain affected recruitment of chim
eric alpha5 integrins to fibronectin-induced focal contacts, and either sub
stituted for the alpha5 cytoplasmic domain in alpha5 beta1-mediated cell mi
gration. However, the alpha5/alpha 3B chimera localized to cell-cell border
s in MDCK or CHO cells to a lesser extent than did the alpha5/alpha 3A chim
era. To determine whether the alpha3 cytoplasmic domains conferred distinct
localization to a nonintegrin protein, we transfected cells with interleuk
in-2 receptor (IL-2R) chimeras containing the alpha3 cytoplasmic domains. T
he IL-2R/alpha 3A chimera was expressed efficiently on the cell surface, wh
ile the IL-2R/alpha 3B chimera accumulated intracellularly. Our findings su
ggest that the alpha 3B cytoplasmic domain harbors a retention signal that
is regulated in an intact integrin and can alter cell surface expression an
d distribution of alpha3 beta1. (C) 2001 Academic Press.