Impairment of MHC class I transcription in a mutant bovine B cell line.

To better define the regulation and expression of bovine major histocompatibility complex (MHC) antigens, the bovine B lymphoblastoid cell line, BL3, was exposed to gamma-irradiation and surviving cells were immunoselected for MHC class I antigen loss. The resulting class I expression loss variant, BL3.1, was characterized at both the protein and genetic levels to ascertain the nature of the defect. Microfluorimetry analysis revealed a 3--5-fold surface density reduction of all class I products on BL3.1 cells relative to the parental BL3 cells. This decreased surface expression was specific for MHC class I and not for MHC class II or the non-MHC-linked gene product, immunoglobulin (Ig). Northern and quantitative slot blot analyses demonstrated a corresponding diminution of class I RNA in BL3.1 suggesting a transcriptional level defect. Nuclear run-off and transcription inhibition experiments confirmed no post-transcriptional changes while Southern blot analysis provided no evidence for alterations within or near the class I genes. To help elucidate the mechanism of altered class I expression, the parent, BL3, and variant, BL3.1, were cultured with factors known to enhance MHC class I transcription. Interferon (IFN)-gamma, lipopolysaccharide (LPS), and activated peripheral blood lymphocyte (PBL) supernatant cultured with both cell lines induced MHC class I transcription and surface expression 2--3-fold greater than the untreated controls. It is likely, therefore, that a genetic alteration outside of the class I genes has occurred within BL3.1 impairing expression of MHC class I.