A novel member of the STOMATIN/EPB72/mec-2 family, stomatin-like 2 (STOML2), is ubiquitously expressed and localizes to HSA chromosome 9p13.1.

A cDNA encoding a novel second member of the Band7/stomatin-like/SPFH domain family in humans designated stomatin-like 2 (STOML2) has been isolated using the technique of cDNA Representational Difference Analysis. The STOML2 cDNA encoded a 356 amino acid residue polypeptide with a predicted molecular weight of 38.5 kDa. The predicted polypeptide sequence of STOML2 could be delineated into three major domains: an N-terminal alpha-helical region; a domain with significant similarity to a 172 amino acid region of the HSA stomatin polypeptide, composed of an alternating alpha-helical and beta-sheet structure and a C-terminal domain that was mostly alpha-helical. The stomatin-like domain was observed in 51 other proteins with potentially diverse functions. Based on its homology to stomatin, STOML2 was predicted to be cytoplasmically located. However, unlike most of the other proteins containing stomatin-like domains, the predicted STOML2 polypeptide does not contain a transmembrane region although the presence of N-myristoylation sites suggest that it has the potential to be membrane-associated. Northern blot analysis of a panel of poly(A)(+) mRNA from normal human adult tissues showed that a single 1.3-kb mRNA transcript encoding STOML2 was ubiquitously expressed, with relatively higher levels in skeletal muscle and heart compared to other tissues. Comparison of the STOML2 cDNA sequence with human genomic DNA indicated that the gene encoding STOML2 was 3,250 bp long and consisted of ten exons interrupted by nine introns. We have mapped STOML2 to HSA chromosome 9p13.1, a region that is rearranged in some cancers and thought to contain the gene responsible for acromesomelic dysplasia.

Cloning and characterization of soluble and transmembrane isoforms of a novel component of the murine type I interferon receptor, IFNAR 2.

This report describes the cloning of cDNAs encoding transmembrane and soluble isoforms of a novel chain of the murine type I interferon (IFN) receptor and characterization of its capability to bind ligand and transduce signals. The transmembrane receptor (murine IFNAR 2c) has an extracellular domain of 215 amino acids and an intracellular domain of 250 amino acids, with 48% amino acid and 71% nucleotide identity with human IFNAR 2c. The cDNA for the soluble murine receptor (IFNAR 2a) encodes a 221-amino acid polypeptide identical to the first 210 amino acids of IFNAR 2c plus a novel 11 amino acids. Northern blot analyses show that murine IFNAR 2 is expressed as two transcripts of 4 kilobases encoding the transmembrane isoform and 1.5 kilobases encoding the more abundant soluble isoform. Studies using primary murine cells that lack IFNAR 1 show that IFNAR 2 is expressed, and cells bind type I IFN ligand, but do not transduce signals as detected by electrophoretic mobility shift assays of ISGF3 or GAF complexes binding to their cognate oligonucleotides. These cells show no effects on the ability of IFNgamma to activate these complexes. These studies demonstrate that the IFNAR 2 transmembrane (2c) and soluble (2a) isoforms are conserved between the human and mouse and that IFNAR 2c has intrinsic ligand binding activity, but no intrinsic signal transducing activity as measured in this study.