Literature DB >> 20018625

Neurons preferentially respond to self-MHC class I allele products regardless of peptide presented.

Nathalie Escande-Beillard1, Lorraine Washburn, Dan Zekzer, Zhongqi-Phyllis Wu, Shoshy Eitan, Sonja Ivkovic, Yuxin Lu, Hoa Dang, Blake Middleton, Tina V Bilousova, Yoshitaka Yoshimura, Christopher J Evans, Sebastian Joyce, Jide Tian, Daniel L Kaufman.   

Abstract

Studies of mice lacking MHC class I (MHC I)-associated proteins have demonstrated a role for MHC I in neurodevelopment. A central question arising from these observations is whether neuronal recognition of MHC I has specificity for the MHC I allele product and the peptide presented. Using a well-established embryonic retina explant system, we observed that picomolar levels of a recombinant self-MHC I molecule inhibited neurite outgrowth. We then assessed the neurobiological activity of a panel of recombinant soluble MHC Is, consisting of different MHC I heavy chains with a defined self- or nonself-peptide presented, on cultured embryonic retinas from mice with different MHC I haplotypes. We observed that self-MHC I allele products had greater inhibitory neuroactivity than nonself-MHC I molecules, regardless of the nature of the peptide presented, a pattern akin to MHC I recognition by some innate immune system receptors. However, self-MHC I molecules had no effect on retinas from MHC I-deficient mice. These observations suggest that neuronal recognition of MHC I may be coordinated with the inherited MHC I alleles, as occurs in the innate immune system. Consistent with this notion, we show that MHC I and MHC I receptors are coexpressed by precursor cells at the earliest stages of retina development, which could enable such coordination.

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Year:  2009        PMID: 20018625      PMCID: PMC2997386          DOI: 10.4049/jimmunol.0902159

Source DB:  PubMed          Journal:  J Immunol        ISSN: 0022-1767            Impact factor:   5.422


  51 in total

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