Cn. Bernstein et al., BETA(2)-INTEGRIN INTERCELLULAR-ADHESION MOLECULE (ICAM) EXPRESSION INTHE NORMAL HUMAN INTESTINE, Clinical and experimental immunology, 106(1), 1996, pp. 160-169
The beta(2)-integrin family of adhesion molecules and their ligands, t
he ICAM molecules, probably have an important role to play in the inte
stinal immune response. To date, any data published regarding the inte
stinal expression of beta(2)-integrins and ICAMs have mostly described
only mucosal expression. The presence in the intestine of alpha d, a
newly described beta(2)-integrin molecule, has not yet been determined
. To understand further the expression of these molecules in all layer
s of the intestine, a comprehensive study was undertaken in both norma
l colon and normal small intestine specimens from 15 patients (colon n
= 15, and ileum n = 6) who underwent surgical resections. Immunohisto
chemistry was performed for CD18, CD11a, CD11b, CD11c, alpha d, ICAM-1
, ICAM-2, and ICAM-3. The colon and small intestine cases were grouped
separately and each of the mucosal, submucosal, muscle and adventitia
l layers were scored for expression. The beta(2)-integrin molecules we
re expressed by mononuclear cells in all layers of the bowel, predomin
antly in the mucosa and adventitia. CD11a showed the greatest mucosal
expression and CD11b showed the greatest adventitial expression. alpha
d exhibited expression in all bowel layers, as well, with most intens
e expression in the mucosa and adventitia. CD11c exhibited the least e
xpression of all alpha subunit molecules. The expression of these alph
a-chains at times appeared to be greater than that seen for CD18 (beta
2), raising the possibility of non-beta 2-containing complexes (i.e.
alpha-chains associating with an alternate beta-chain). ICAM-1 was exp
ressed on endothelium, particularly in the mucosa and rarely on mucosa
l mononuclear cells. ICAM-2, was predominantly on submucosal endotheli
um and rarely expressed in colon mucosa and never expressed in ileal m
ucosa. ICAM-3 was expressed by mononuclear cells throughout the bowel
wall, but also on adventitial endothelium in selected cases. In summar
y, we are reporting a comprehensive immunohistochemical study of the d
ifferential expression of beta(2)-integrins, including the newly descr
ibed alpha d molecule, and the ICAM molecules in all layers of normal
human colon and ileum. We raise the possibility that a second beta(2)-
integrin beta subunit may exist, and we report that ICAM-3 is expresse
d on endothelium. particularly in the adventitial layer.