Ann Fischer scite author profile

SUMMARY The C3H UV‐induced fibrosarcoma, 1591, is highly immunogenic and, therefore, is readily rejected when transplanted into immunocompetent syngeneic recipients. Previous analysis of 1591 with tumour‐specific or H‐2‐reactive monoclonal antibodies revealed that this antigenicity might be due to the expression of two novel class I major histocompatibility complex (MHC) antigens. In this report we describe the molecular cloning and initial characterization of three genes which account for all of the unique serological class I reactivities observed on this tumour. These include two distinct, but highly conserved, H‐2L‐like genes, and a third gene the product of which bears determinants which are characteristic of both the tumour and of class I products of the H‐2k haplotype. Moreover, each of these genes contains a polymorphic restriction enzyme fragment which is detected in the class I sequences of 1591 relative to normal C3H tissue. Since the expression of these polymorphic class I sequences is relevant to the immunogenicity of 1591, the mutational events by which these genes were generated may be significant to the immunobiology of this tumour.

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The tumor-rejection antigens of the 1591 ultraviolet fibrosarcoma. Potential origin and evolutionary implications.

Linsk

Watts

Fischer

et al. 1989

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Previously, we cloned and sequenced the three novel MHC class I genes expressed by the C3H UV fibrosarcoma, 1591. We have extended the analysis of the polymorphic nature of these genes relative to the C3H strain. Scattered nucleotide differences among the tumor genes as compared with the C3H H-2 and Qa sequences make it highly unlikely that the novel tumor genes were generated by recombination between endogenous C3H sequences. Given that two of the tumor clones, A149 and A166, are remarkably similar in amino acid and DNA sequence to H-2Lq and H-2Dq, respectively, we also examined the 1591 RP2 and GUS loci for evidence of polymorphism. Compared with C3H and B10.AKM, 1591 appears to be heterozygous at each of these loci, consistent with an H-2q origin for the two novel 1591 class I genes. Interestingly, the third tumor gene, designated A216, shares certain characteristics with the H-2Ks antigen, reminiscent of the naturally occurring combination of H-2Ks, H-2Dq, and H-2Lq antigens found in some Swiss mouse strains. As a result, we propose that the non-C3H/HeN characteristics displayed by the 1591 tumor point to a non-C3H origin for the novel tumor class I genes of 1591.

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Culture and Epidemiology: A Theoretical Investigation of Kuru

Fischer¹,

Fischer²

1961

Journal of Health and Human Behavior

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Overlapping palindromic sequences associated with somatic deletion and meiotic recombination of MHC class I genes

Vogel

Nieto

Fischer

et al. 1990

Molecular Immunology

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Ann Fischer

Oxidative DNA damage and senescence of human diploid fibroblast cells.

Isolation of the MHC Genes Encoding the Tumour‐specific Class I Antigens Expressed on a Murine Fibrosarcoma

The tumor-rejection antigens of the 1591 ultraviolet fibrosarcoma. Potential origin and evolutionary implications.

Culture and Epidemiology: A Theoretical Investigation of Kuru

Overlapping palindromic sequences associated with somatic deletion and meiotic recombination of MHC class I genes

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