V7, a novel leukocyte surface protein that participates in T cell activation. II. Molecular cloning and characterization of the V7 gene.

V7 is a cell surface glycoprotein expressed on Ag-activated T cells, monocytes, and granulocytes, as well as subpopulations of T cells and accessory cells present in thymic medulla and tonsil. A mAb directed against V7 inhibits the proliferative response of T cells to allogeneic cells or immobilized anti-CD3 Ab, but not lectin mitogens, suggesting that V7 plays a role in TCR/CD3-mediated T cell activation. We have used the anti-V7 Ab in eukaryotic expression cloning experiments to isolate a cDNA clone containing a 3,340-bp insert that encodes V7 when transiently expressed in simian and murine fibroblastoid cells. DNA sequence analysis revealed a novel 1,021-amino acid open reading frame the structure of which conforms to the category of type I integral membrane proteins. The protein sequence includes a 20-residue putative hydrophobic signal sequence followed by a putative extracellular domain of 934 amino acids, a prototypic hydrophobic transmembrane spanning a domain of 25 residues, and finally a short and highly charged putative cytoplasmic domain of 42 residues. The extracellular domain contains seven pairs of regularly spaced cysteine residues, suggestive of Ig-like domains. On the basis of statistical analysis of the sequences of the putative cysteine loops, all seven of the Ig-like domains belong to the variable, or V-type, category. By using fluorescence in situ hybridization, we have mapped the V7 gene to human chromosome Ip13. Thus, the V7 glycoprotein represents a novel member of the Ig superfamily that is involved in critical intracellular signals essential for immune function.

Candida albicans estrogen-binding protein gene encodes an oxidoreductase that is inhibited by estradiol.

Candida albicans, the most common fungal pathogen of humans, possesses an estrogen-binding protein (EBP) that binds mammalian estrogens with high affinity. We report here the cloning and complete nucleotide sequence of a gene encoding a C. albicans EBP. Amino acid sequences obtained from cyanogen bromide fragments of purified EBP were used to design oligonucleotide primers for PCR. An 800-bp product was amplified and used to screen a C. albicans genomic library. A clone was isolated containing an insert with an open reading frame of 1221 nt capable of encoding a protein with 407 amino acids and having a calculated molecular mass of 46,073 Da, the estimated size of EBP. The cloned gene, expressed in Escherichia coli as a lacZ fusion protein, demonstrated high-affinity binding for estradiol and a competition profile comparable to C. albicans wild-type EBP. Northern blots of C. albicans RNA revealed a single transcript of approximately 1600 nt, whereas Southern blots identified three hybridizing fragments. Computer searches of data bases showed that EBP shares a 46% amino acid identity with the old yellow enzyme, an oxidoreductase from Saccharomyces cerevisiae, but was unrelated to the human estrogen receptor as previously speculated. In addition, a 51-amino acid region of EBP is highly conserved among a group of flavoproteins including old yellow enzyme. Expressed EBP was shown to exhibit oxidoreductase activity that could be inhibited by 17 beta-estradiol in vitro. In conclusion, the EBP from C. albicans has no evident homology to the mammalian steroid receptor superfamily but appears to be a member of a recently identified family of flavoproteins.

Cloning and expression of the gene from Candida albicans that encodes a high-affinity corticosteroid-binding protein.

We have previously demonstrated the presence of a corticosteroid-binding protein (CBP) in Candida albicans and speculated on its homology to the glucocorticoid receptor. To explore this relationship further, we cloned the CBP gene. Our strategy employed sequencing enzymatically derived peptide fragments from purified CBP and using this information to synthesize degenerate oligonucleotide primers for use in the PCR. A 117-bp fragment amplified from C. albicans DNA was then used to screen a genomic library. Hybridizing clones were isolated, and DNA sequencing revealed an open reading frame of 1467 bp which encoded a protein with a molecular weight of 55,545. Southern analysis demonstrated that the gene was present at a unique locus within chromosome R of the Candida genome, while Northern analysis showed that the gene was expressed in C. albicans as a 1.8-kb transcript. CBP was over-expressed in Saccharomyces cerevisiae, and it exhibited an apparent dissociation constant (Kd) of 7 nM for [3H]corticosterone and displayed a steroid hormone binding profile comparable to that of the native protein. Searches of the data banks revealed little overall similarity to other cloned genes. However, the amino acid sequence contains a dinucleotide-binding fingerprint. In conclusion, we have cloned the gene encoding the CBP from C. albicans and have shown that the expressed protein has the properties of the native CBP. A comparison of the cloned gene to members of the steroid-thyroid-retinoic acid receptor gene superfamily showed that CBP is unrelated to these hormone receptors.