Enzymatic and non-enzymatic treatments for antigen unmasking on formalin-fixed, paraffin-embedded, dewaxed sections were optimized and compared by the use of a panel of antibodies of diagnostic relevance (anti-cytokeratins, vimentin, S-100, T- and B-cell receptors, Ki-67/MIB 1, muscle actin). Non-enzymatic unmasking was obtained by boiling the slides in a microwave oven in 0.01 M salt solution (pH 6) or in 6 M urea. Trypsin or pronase digestion was used for comparison and found to be necessary for some of the reagents. The investigation was then extended to 256 antibodies; the epitopic amino acid sequence was known for 48 of them. We found that enzymatic and non-enzymatic antigen unmasking are not dependent on the epitope sequence, but some antigens benefit selectively from one treatment but not from the other. Denaturation of proteins is the likely mechanism which leads to immunodetection on microwave oven-boiled slides; this suggestion is supported by the use of denaturating solutions and by the observation that endogenous enzymes were inactivated and a few antigens were no longer immunodetectable after boiling. Non-enzymatic methods for antigen unmasking are a powerful new tool for broadening the use of antibodies for immunostaining formalin-fixed, paraffin-embedded sections and should be used in parallel with the traditional enzymatic methods.
We have molecularly cloned a unique acutely transforming replication-defective mouse type C virus (3611-MSV) and characterized its acquired oncogene. The viral genome closely resembles Moloney (M) murine leukemia virus (MuLV), except for a substitution in M-MuLV in the middle of p30 and the middle of the polymerase gene (pol). Heteroduplex analysis revealed that 2.4 kilobases of M-MuLV DNA were replaced by 1.2 kilobases of cellular DNA. The junctions between viral and cellular sequences were determined by DNA sequence analysis to be 517 nucleotides into the p30 sequence and 1,920 nucleotides into the polymerase sequence. Comparison of the transforming gene from 3611-MSV, designated v-raf, with previously isolated retrovirus oncogenes either by direct hybridization or by comparison of restriction fragments of their cellular homologs shows it to be unique. Transfection of NIH 3T3 cells with cloned 3611-MSV proviral DNA leads to highly efficient transformation and the recovered virus elicits tumors in mice typical of the 3611-MSV virus. Transfected NIH 3T3 cells express two 3611-MSV-specific polyproteins (P75 and P90), both of which contain NH2-terminal gag gene-encoded components linked to the acquired sequence (v-raf) translational product. The cellular homolog, c-raf, is present in one or two copies per haploid genome in mouse and human DNA.Retroviruses act as natural vectors for the transduction of at least some cellular genes, designated proto-oncogenes (1, 2), which bring about malignant transformation of infected cells. The cellular origin of a retroviral transforming gene (v-onc) was first demonstrated for v-src, the oncogene of Rous sarcoma virus (3, 4). Since then, 14 additional v-onc genes present in different acutely transforming retroviruses of avian and mammalian origin have been described, each similarly derived from cellular genes (c-onc) (1, 2). At least six of the v-onc genes code for functionally related tyrosine-specific protein kinases (5, 6), several of which appear to have a common evolutionary origin (7-9). Although the v-onc genes that do not encode protein kinase make up an evolutionarily more diverse group, some, such as v-kis and v-has, also appear to be members of gene families (10).The significance for human disease of c-onc genes had been purely hypothetical prior to the recent demonstration by DNA transfection that active forms of such genes may be associated with human cancers (11,12). Furthermore, human c-onc genes are associated with specific translocations characteristic of certain types of human cancer (13)(14)(15). These findings emphasize the potential importance of onc genes for an understanding of human malignancy and point to a need for a more complete accounting of such genes in human DNA.The isolation of retroviral oncogenes has in the past been sporadic and limited mainly to isolations from spontaneous tumors. More recently we have designed experiments to generate acutely transforming retroviruses by growth of IdUrd-induced endogenous type C viruses in chemicall...
Cultured cell lines of human tumour origin as well as cells transformed by various RNA tumour viruses secrete low molecular weight polypeptide transforming growth factors (TGFs). In addition to competing with epidermal growth factor (EGF) for binding to its cellular receptor, TGFs can transform morphologically fibroblast and epithelial cells in culture. In view of accumulating evidence that tyrosine phosphorylation activity is associated with the transforming genes of various tumour viruses, we determined whether phosphotyrosine levels were elevated in these human tumour cells. We show here that TGFs produced by human tumour cells induce phosphorylation of specific tyrosine acceptor sites in the 160,000-molecular weight (160 K) EGF receptor.
Cell clones nonproductively transformed by the replication-defective Abelson strain of murine leukemia virus (AbLV) were analyzed for type C viral antigen expression by competition immunoassay. AbLV-transformed mink non-producer lines were found to express a 110,000- to 130,000-molecular weight polyprotein containing murine leukemia virus gag proteins p15 and p12 covalently linked to nonstructural AbLV-coded component(s) of around 80,000-100,000 molecular weight. This polyprotein lacked detectable antigenic cross-reactivity with other virion-coded gag gene proteins such as p30, p10, the viral reverse transcriptase (RNA-dependent DNA polymerase), or the major viral envelope glycoprotein, gp70. By analogy to earlier data on feline and avian sarcoma viruses, these results suggest that a portion of this polyprotein might represent the AbLV src gene product and that in translation it is initially linked in precursor form to gag structural proteins. Superinfection of mink cells nonproductively transformed by AbLV--with either a wild mouse amphotropic type C virus isolate, 4070-A, or with the endogenous cat virus, RD114--led to production of pseudotype virus containing high concentrations of the AbLV-coded precursor polyprotein.
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