60 research outputs found
C4.4A as a candidate marker in the diagnosis of colorectal cancer
C4.4A is a member of the Ly-6 family with restricted expression in non-transformed tissues. C4.4A expression in human cancer has rarely been evaluated. Thus, it became important to explore C4.4A protein expression in human tumour tissue to obtain an estimate on the frequency of expression and the correlation with tumour progression, the study focusing on colorectal cancer. The analysis of C4.4A in human tumour lines by western blot and immunoprecipitation using polyclonal rabbit antibodies that recognize different C4.4A epitopes revealed C4.4A oligomer and heavily glycosylated C4.4A isoform expression that, in some instances, inhibited antibody binding and interaction with the C4.4A ligand galectin-3. In addition, tumour cell lines released C4.4A by vesicle shedding and proteolytic cleavage. C4.4A was expressed in over 80% of primary colorectal cancer and liver metastasis with negligible expression in adjacent colonic mucosa, inflamed colonic tissue and liver. This compares well with EpCAM and CO-029 expression in over 90% of colorectal cancer. C4.4A expression was only observed in about 50% of pancreatic cancer and renal cell carcinoma. By de novo expression in colonic cancer tissue, we consider C4.4A as a candidate diagnostic marker in colorectal cancer, which possibly can be detected in body fluids
Retardation of metastatic tumor growth after immunization with metastasis-specific monoclonal antibodies
The influence of 4 murine monoclonal antibodies (MAbs) directed against surface determinants of a metastasizing rat adenocarcinoma (BSp73ASML) on metastatic spread was evaluated and compared to their in vivo binding as well as to the induction of a humoral anti-MAb response, especially with respect to the development of anti-idiotypic (ID) antibodies of the internal image type. In a protocol of explicit immunization, all 4 MAbs transiently inhibited metastatic growth. Survival was prolonged only with one MAb (4.4ASML). With another MAb (1.1ASML), directed against a new variant form of CD44, metastatic growth was accelerated after transient retardation. Retardation of metastatic growth correlated with the humoral anti-MAb response. This accounted for the isotype- as well as for the idiotype-specific response. An exception was noted after immunization with MAb 1.1ASML. Rats with high levels of anti-1.1ASML antibodies, which inhibited binding to the tumor cells (internal image-type antibodies) showed accelerated metastatic spread. Data are interpreted to mean that MAb-induced inhibition of metastatic spread may be based on 2 independent mechanisms: blockade of metastasis-associated epitopes (i.e., with MAb 1.1ASML) and induction of an anti-mouse Ig response. In the latter case it was irrelevant whether the response was isotype- or idiotype-specific
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