Detection of a polyoma virus-induced tumor-associated membrane antigen in mouse cells by the macrophage migration inhibition test.

Soluble membrane fractions derived from polyoma tumor cells trigger lymphocytes, derived from polyoma-immunized animals, but not from nonimmunized controls, to release the lymphokine, macrophage migration-inhibitory factor. The reaction can be blocked by sera from polyoma-bearing animals. Absorption of these sera with polyoma cells, but not with nonpolyoma cell lines, abrogates this activity. These findings suggest that there is a polyoma virus-induced membrane component that can induce polyoma-specific macrophage migration inhibition.

A polyomavirus tumor-specific transplantation antigen (TSTA) epitope is situated within the N-terminal amino acid sequence common to middle and small T-antigens.

An MT cDNA-transformed rat cell line (2.8), that contains only the polyoma middle T-antigen and expresses polyoma TSTA, can be rejected in rats immunized with 1837 cells that carry a host range (A185 hr-t), mutant which expresses a full-length large T-antigen, and nonfunctional N-terminal fragments of small and middle T. This shows that at least one polyoma TSTA epitope is situated in the 113 amino acid N-terminal region, which is common to middle and small T-antigens.

Polyoma T-antigen-derived synthetic peptides induce polyoma-virus-specific macrophage migration inhibition.

Synthetic peptides, 2 derived from the sequence common to small, middle and large T-antigen, and I derived from the sequence unique for middle T, activated lymphocytes from polyoma-virus-immunized, but not from control mice, to release the lymphokine migration inhibitory factor (MIF). In contrast, purified, bacterially grown, full-length small T-antigen and a middle T-antigen mutant Py 1387T MT (lacking 37 C-terminal amino acids) did not induce lymphokine release, although they were capable of inducing an anti-polyoma TSTA response in vivo.

Studies on the polyoma tumor-specific transplantation antigen (TSTA): selection and characterization of TSTA-negative segregants from somatic hybrids.

Two polyoma-TSTA-negative variants were selected independently from a polyoma fibrosarcoma/Moloney lymphoma somatic hybrid, by repeated passages in polyoma-virus-preimmunized mice. One of the variants had lost all its polyoma DNA, while the other only retained a deleted piece of its integrated polyoma DNA. In contrast to the parental hybrid clone, none of the variants produced detectable amounts of T-antigens. This finding indicates that a detectable expression of the products of the polyoma virus early genome, the T-antigens, is important either directly or indirectly for the expression of TSTA.

A single peptide derived from the sequence common to polyoma small and middle T-antigen induces immunity against polyoma tumors.

Polyoma virus, an oncogenic virus, fails to induce tumors in immunocompetent rodents due to T cell-dependent mechanisms. The target recognized by the immune system has been functionally defined as polyoma tumor-specific transplantation antigen (TSTA) and has been postulated to be related to the virus three early proteins small T (ST), middle T (MT), and large T (LT) antigens. We show here that immunization with a synthetic peptide corresponding to amino acids 162-176 of polyoma MT and ST was able to decrease tumor progression of polyoma tumors, but not of nonpolyoma tumors. This indicated that these amino acids constitute an epitope of the polyoma tumor-specific transplantation antigen.

Immunization against the polyoma tumor-specific transplantation antigen (TSTA) with polyoma T-antigens.

The relationship between the polyoma virus tumor-specific transplantation antigen (TSTA) and 2 of the virus proteins coded from the early region of polyomavirus was investigated. Mice were immunized with small T antigen and a truncated mutant of middle T antigen, both purified from genetically engineered Escherichia coli. The 2 proteins induced protective immunity against polyomavirus-induced tumors, but not against non-polyoma tumors, indicating that one or more of the polyoma T antigens are directly involved in a TSTA function.