Katherine LaPan scite author profile

Katherine LaPan

4Publications

19Citation Statements Received

22Citation Statements Given

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Affiliations

University of North Carolina at Chapel Hill, Cancer Research Center

Publications

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Production and Characterization of Two New Mouse Monoclonal Antibodies Reactive with Denatured Mouse Class II Beta Chains

LaPan

Klapper²,

Frelinger³

1992

Hybridoma

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We report on the production and characterization of two murine peptide specific anti-major histocompatibility complex class II chain specific monoclonal antibodies. Two new mouse monoclonal antibodies reactive with two synthetic peptides corresponding to Abb amino acids (146-157) and Abs amino acids (146-157) were produced. KL295 is the mouse anti-Abb monoclonal antibody, which reacts with denatured beta chains of H-2b, H-2d, H-2p, and H-2q, but fail to react with spleen cell lysates from H-2f, H-2j, H-2k and H-2s mice. The mouse anti Abs monoclonal antibody, KL304 in contrast reacts with the denatured Class II beta chains of H-2f, H-2j, H-2k and H-2s mice, but fails to bind H-2b, H-2d, H-2p or H-2q beta chain, suggesting residues 153-155 of this molecule to be critical for the epitope. Both KL295 and KL304 bind B10.WB (H-2j) which suggests a unique epitope in this strain of mice. Neither KL295 or KL304 react with native mouse class II cell surface molecules.

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Production and characterization of a peptide specific, anti-major histocompatibility complex class II, monoclonal antibody

LaPan¹,

Klapper²,

Frelinger³

1991

Molecular Immunology

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The ?1 and ?2 domains of H-2 class I molecules interact to form unique epitopes

et al. 1987

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Mouse class I antigens are the major targets of cytolytic T lymphocytes in both major histocompatibility complex (MHC)-restricted and allogeneic responses. Considerable evidence has recently accumulated demonstrating that MHC class I molecules encoded by genes whose alpha 1 and alpha 2 coding exons were interchanged are not recognized by T lymphocytes specific for parental class I products. Along with the loss of T-cell reactivity, there is a loss of recognition by some, but not all monoclonal antibodies. In this communication we report that the loss of reactivity by monoclonal antibodies is accompanied by the gain of new epitopes caused by the interaction of alpha 1 and alpha 2 domains. These epitopes are immunodominant. They are the major determinant recognized by polyclonal antisera raised by immunization with L cells transfected with exon-shuffled class I genes. Four new monoclonal antibodies have been produced which recognize at least two separate epitopes caused by the interaction of the alpha 1p and alpha 2d domains.

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Cytotoxic T Lymphocyte Recognition of Hybrid MHC Class I Molecules

Kanda

Macchi

LaPan

et al. 1988

Int J Immunogenetics

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SUMMARY We have utilized a group of MHC class I genes produced by in vitro recombination between Dp and Dd to study recognition of MHC class I molecules by cytolytic T cells (CTLs). Both polyclonal allo‐specific and H‐2‐restricted CTLs require that α1 and a2 of the target class I molecule be derived from the same haplotype for efficient killing. By using T‐cell lines we showed that within the bulk population there must exist a fraction of T cells which can recognize epitopes in al or α2. Critical residues for T‐cell recognition have been identified using these chimeric genes.

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Katherine LaPan

Production and Characterization of Two New Mouse Monoclonal Antibodies Reactive with Denatured Mouse Class II Beta Chains

Production and characterization of a peptide specific, anti-major histocompatibility complex class II, monoclonal antibody

The ?1 and ?2 domains of H-2 class I molecules interact to form unique epitopes

Cytotoxic T Lymphocyte Recognition of Hybrid MHC Class I Molecules

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