A novel mutant gammac chain from a patient with typical phenotype of X-linked severe combined immunodeficiency (SCID) has partial signalling function for mediating IL-2 and IL-4 receptor action.

Mutations of the common gamma (gammac) chain result in X-linked SCID (X-SCID), which is characterized by the reduction in number or absence of peripheral blood T cells and natural killer (NK) cells, with retention of normal numbers of B cells. In the present study we describe a novel mutant gammac chain of an X-SCID patient with a typical X-SCID phenotype. This mutant receptor subunit is able to associate with Jak3 to transduce a weak signal. The Jak3-specific action is demonstrated by the induction of gene expression through the haematopoietin receptor response element (HRRE) by IL-2 and IL-4 in the experimental model of transiently transfected hepatoma cells over-expressing Jak3. This result suggests that a threshold in the gammac-Jak3 interaction determines the X-SCID phenotype.

TRAIL-R2: a novel apoptosis-mediating receptor for TRAIL.

TRAIL is a member of the tumor necrosis factor (TNF) family of cytokines and induces apoptosis in a wide variety of cells. Based on homology searching of a private database, a receptor for TRAIL (DR4 or TRAIL-R1) was recently identified. Here we report the identification of a distinct receptor for TRAIL, TRAIL-R2, by ligand-based affinity purification and subsequent molecular cloning. TRAIL-R2 was purified independently as the only receptor for TRAIL detectable on the surface of two different human cell lines that undergo apoptosis upon stimulation with TRAIL. TRAIL-R2 contains two extracellular cysteine-rich repeats, typical for TNF receptor (TNFR) family members, and a cytoplasmic death domain. TRAIL binds to recombinant cell-surface-expressed TRAIL-R2, and TRAIL-induced apoptosis is inhibited by a TRAIL-R2-Fc fusion protein. TRAIL-R2 mRNA is widely expressed and the gene encoding TRAIL-R2 is located on human chromosome 8p22-21. Like TRAIL-R1, TRAIL-R2 engages a caspase-dependent apoptotic pathway but, in contrast to TRAIL-R1, TRAIL-R2 mediates apoptosis via the intracellular adaptor molecule FADD/MORT1. The existence of two distinct receptors for the same ligand suggests an unexpected complexity to TRAIL biology, reminiscent of dual receptors for TNF, the canonical member of this family.

Complete nucleotide sequence of the mouse CTLA8 gene.

The gene encoding the mouse cytotoxic T-lymphocyte-associated antigen 8 (CTLA8) has been cloned and its complete nucleotide (nt) sequence determined. Sequence and polymerase chain reaction (PCR) analysis indicated that the published CTLA8 sequence[Rouvier et al., J. Immunol. 150 (1993), 5445-5456] was of rat rather than mouse origin. The mouse CTLA8 gene contains two exons and one intron. The 5'flanking region contains several consensus motifs for binding to transcription factors and the 3' untranslated region (UTR) has AU-rich motifs associated with RNA instability. The putative exon sequences predict that the full-length mouse CTLA8 molecule contains 147 amino acids (aa) and shares 88% aa identity with rat CTLA8 and 57% aa identity to HSV13, an open reading frame (ORF) from herpesvirus saimiri (HVS).

Characterization of B-cell lines established from two X-linked severe combined immunodeficiency patients: interleukin-15 binds to the B cells but is not internalized efficiently.

X-linked severe combined immunodeficiency (XSCID) is characterized by absent or profoundly reduced numbers of T cells and normal numbers of B cells in the circulation. Affected patients have mutations of the interleukin-2 (IL-2) receptor gamma chain gene. Using Epstein-Barr virus-transformed B-lymphoblastoid cell lines (B-LCLs) established from two unrelated XSCID patients, we could show that neither expressed the IL-2 receptor gamma chain on the cell surface. A novel cytokine IL-15, which has biologic activities similar to those of IL-2, could bind to the XSCID B-LCLs in the absence of the gamma chain, although both the beta and gamma chains of the human IL-2 receptor were previously shown to be required for IL-15 binding by transfected COS cells. Furthermore, a significant reduction and delay of IL-15 internalization by B lymphoblasts from XSCID patients was observed when compared with that of normal control B-LCLs. These results show the existence of a novel IL-15-specific receptor component that contributes to IL-15 binding but is insufficient for IL-15 internalization in the absence of the IL-2 receptor gamma chain.

Signal transduction by the receptors for thrombopoietin (c-mpL) and interleukin-3 in hematopoietic and nonhematopoietic cells.

Antisense oligonucleotide to the translation initiation sequence of human c-mpI reduced the proliferation of human CD34+ bone marrow cells in response to interleukin-3 (IL-3) alone or to the combination of IL-3 and thrombopoietin (TPO). To investigate the molecular basis for these cytokine interactions, we analyzed the relationship between the receptor subunits for IL-3 and TPO and determined whether both receptors activate identical signal transduction pathways. The function of the receptor subunits was characterized in transiently transfected hepatoma cells and fibroblasts by the activation of gene expression via specific regulatory elements and by the stimulation of DNA-binding activity of STAT proteins. Although c-mpl and IL-3 receptor (IL-3R) reconstituted a qualitatively comparable gene regulatory response, there was no detectable functional interaction between their respective receptor subunits. By comparing the receptor action in different cell lines, we observed that in human hepatoma cells the signaling of c-mpI was 100-fold less sensitive to TPO than in rat hepatoma cells. However, IL-3R signaling was comparable between the two cell types, suggesting that c-mpI and IL-3R do not use identical signal transducing mechanisms. The cytoplasmic domains necessary for c-mpI signaling were determined by testing deletion mutants. The membrane-proximal box 1 sequence motif was critical for gene regulation and for STAT protein activation that seemed to involve the Janus kinase 2 (JAK2). Because IL-3R was less dependent on JAK2 than c-mpI, different levels of JAK2 expression may account, in part, for the quantitative difference in IL-3 and TPO response among various cell lines.

Hybridization of clinical Escherichia coli isolates from calves and piglets in New York State with gene probes for enterotoxins (STaP, STb, LT), Shiga-like toxins (SLT-1, SLT-II) and adhesion factors (K88, K99, F41, 987P).

Six hundred and sixty-six bovine and fifty-seven swine clinical isolates of E. coli from New York state were examined for the presence of enterotoxins (STaP, STb, LT, SLT-I, and SLT-II) and adhesins (K88, K99, F41, and 987P) using colony hybridization techniques. Three hundred and sixty-seven of the bovine isolates (45.2%) hybridized with at least one gene probe. Of these, two hundred and twenty-three (33.2%) hybridized with F41, one hundred twelve (16.7%) with K99, eighty-two (12.2%) with 987P, ninety-six (14.3%) with STaP, seven (1.1%) with STb, and none (0.0%) with LT and K88. A total of thirty-three (4.7%) of the isolates hybridized with SLT-I, and one (0.1%) with SLT-II. The major pathotypes among the 666 isolates from bovine were K99/F41/StaP (9.8%), K99/F41 (2.5%), p87P/F41 (2.1%) and 987P/K99/F41/StaP (1.4%). Of the swine clinical isolates, twenty-two hybridized with at least one gene probe. The major pathotypes among the isolates from piglets were K88/K99/F41/StaP (5.3%) and K88/F41 (5.3%).