Distinct pathways of cell migration and antiapoptotic response to epithelial injury: structure-function analysis of human intestinal trefoil factor.

The trefoil peptide intestinal trefoil factor (ITF) plays a critical role in the protection of colonic mucosa and is essential to restitution after epithelial damage. These functional properties are accomplished through coordinated promotion of cell migration and inhibition of apoptosis. ITF contains a unique three-looped trefoil motif formed by intrachain disulfide bonds among six conserved cysteine residues, which is thought to contribute to its marked protease resistance. ITF also has a seventh cysteine residue, which permits homodimer formation. A series of cysteine-to-serine substitutions and a C-terminally truncated ITF were made by PCR site-directed mutagenesis. Any alteration of the trefoil motif or truncation resulted in loss of protease resistance. However, neither an intact trefoil domain nor dimerization was required to promote cell migration. This pro-restitution activity correlated with the ability of the ITF mutants to activate mitogen-activated protein (MAP) kinase independent of phosphorylation of the epidermal growth factor (EGF) receptor. In contrast, only intact ITF retained both phosphatidylinositol 3-kinase and the EGF receptor-dependent antiapoptotic effect in HCT116 and IEC-6 cells. The inability to block apoptosis correlated with a loss of trefoil peptide-induced transactivation of the EGF receptor or Akt kinase in HT-29 cells. In addition to defining structural requirements for the functional properties of ITF, these findings demonstrate that distinct intracellular signaling pathways mediate the effects of ITF on cell migration and apoptosis.

Intestinal trefoil factor confers colonic epithelial resistance to apoptosis.

Intestinal trefoil factor (ITF) is an essential regulator of colonic epithelial restitution, the rapid migration of colonocytes over mucosal wounds. High levels of ITF are frequently present in colorectal cancers and derived cell lines. Mucosal restitution requires the detachment of epithelium from substrate, which would be expected to induce apoptosis. However, mice deficient in ITF showed an increase in colonocyte apoptosis unaccompanied by changes in expression of receptor-related (TNFR/Fas) or stress-related (Bcl-family) cell death regulators. An ITF-expressing colonic (HT-ITF1) cell line was resistant to apoptosis induced by serum starvation and ceramide. Exogenous ITF also protected another human colonic carcinoma-derived cell line (HCT116) and a nontransformed rat intestinal epithelial cell line (IEC-6) from apoptosis. This effect was abrogated by wortmannin and tyrphostin A25, indicating the potential involvement of phosphatidylinositol 3-kinase and epidermal growth factor (EGF) receptor activation. Expression of phosphorylated Akt, which lies downstream of phosphatidylinositol 3-kinase activation, was elevated in this HT-29-ITF line. p53-dependent cell death in the AGS human gastric cancer cell line after etoposide was similarly inhibited by transient expression of ITF but not a C-terminal truncation mutant of ITF, and it required functional phosphatidylinositol 3-kinase and EGF receptor. These findings support a central role for ITF in the maintenance of intestinal mucosal continuity, and conversely demonstrate the potential for ITF expression to confer resistance of colorectal tumors to therapy.

Trefoil peptides are early markers of gastrointestinal maturation in the rat.

Trefoil peptides are members of a unique family of proteins found predominately throughout the gastrointestinal tract, whose proposed functions include mucus stabilization, stimulation and/or differentiation of epithelial cells during wound repair. Recent trefoil knockout studies have reported delays in epithelial cell migration or maturation pathways together with almost a complete lack of mucus. In order to fully explore the role of trefoil peptides in gastrointestinal maturation, these studies were undertaken to accurately characterize the expression of trefoil peptides in the developing rat gut. The results of RPA suggest that trefoil mRNA's are expressed as early as 15 days post coitus (dpc) in the intestine and stomach. Proteins are detected at 17 dpc by radioimmunoassay and immunohistochemical studies, which localize trefoil peptide expression to the lumenal surface of epithelial cells. At 17 dpc the gut is lined by pseudo-stratified, undifferentiated epithelial cells. Polarized, columnar cells are not detected until at least 18 dpc, with sparse mucus staining and parietal cell markers not being detected until 18 and 19 dpc respectively. This data demonstrates that trefoil peptides are early markers of epithelial cell maturation in the developing rat gut. The time course of their expression, well before the mucus cell type is specified, suggests a potential role in epithelial cell differentiation.

The trefoil peptides spasmolytic polypeptide and intestinal trefoil factor are major secretory products of the rat gut.

Spasmolytic polypeptide (SP) and intestinal trefoil factor (ITF) are trefoil peptides expressed by gut mucus cells. Using specific antisera we have quantified and characterized the molecular forms and distribution of these peptides in the rat gut. SP predominates in the gastric antrum as a 12 kDa form. ITF (7 kDa) is highly expressed throughout the small intestine. Both peptides are distributed in the apical secretory compartment of antral mucus cells (SP) and goblet cells (ITF), and on the lumenal surface. This study quantifies SP and ITF for the first time, and confirms them as major secretory products of the rat gut.