The W100 pocket on HIV-1 gp120 penetrated by b12 is not a target for other CD4bs monoclonal antibodies

Background

The conserved CD4 binding site (CD4bs) on HIV-1 gp120 is a major target for vaccines. It is a priority to determine sites and structures within the CD4bs that are important for inclusion in vaccines. We studied a gp120 pocket penetrated by W100 of the potent CD4bs monoclonal antibody (mab), b12. We compared HIV-1 envelopes and corresponding mutants that carried blocked W100 pockets to evaluate whether other CD4bs mabs target this site.

Findings

All CD4bs mabs tested blocked soluble CD4 binding to gp120 consistent with their designation as CD4bs directed antibodies. All CD4bs mabs tested neutralized pseudovirions carrying NL4.3 wild type (wt) envelope. However, only b12 failed to neutralize pseudoviruses carrying mutant envelopes with a blocked W100 pocket. In addition, for CD4bs mabs that neutralized pseudovirions carrying primary envelopes, mutation of the W100 pocket had little or no effect on neutralization sensitivity.

Conclusions

Our data indicate that the b12 W100 pocket on gp120 is infrequently targeted by CD4bs mabs. This site is therefore not a priority for preservation in vaccines aiming to elicit antibodies targeting the CD4bs.     

Oligomerization is a specific requirement for apical sorting of glycosyl-phosphatidylinositol-anchored proteins but not for non-raft-associated apical proteins

Protein apical sorting in polarized epithelial cells is mediated by two different mechanisms, raft dependent and raft independent. In Madin-Darby canine kidney (MDCK) cells, an essential step for apical sorting of glycosyl-phosphatidylinositol (GPI)-anchored proteins (GPI-APs) is their coalescence into high-molecular-weight (HMW) oligomers. Here we show that this mechanism is also functional in Fischer rat thyroid cells, which possess a different sorting phenotype compared with MDCK cells. We demonstrate that, as in MDCK cells, both apical and basolateral GPI-APs associate with detergent-resistant microdomains, but that only the apical proteins are able to oligomerize into HMW complexes during their passage through the medial Golgi. We also show that oligomerization is a specific requirement for apical sorting of GPI-APs and is not used by transmembrane, non-raft-associated apical proteins.     

The human perforin gene is a direct target of STAT4 activated by IL-12 in NK cells

IL-12 activates STAT4 by inducing tyrosine phosphorylation, homo-dimerization, and nuclear translocation in NK cells and thereby stimulates proliferation and activation of these cells. The pore-forming protein perforin is a key effector protein for NK cell- and cytotoxic T lymphocyte-mediated cytolysis. Here we demonstrate that IL-12 induces the expression of the perforin gene in human NK cell line, NKL. Electrophoretic mobility shift assays using a probe containing two putative STAT-binding sequences located at -1085 and -1059 in the human perforin gene showed that STAT4 or STAT5 activated by IL-12 or IL-2, respectively, in NKL cells binds this region. Further analyses using various probes with or without mutated STAT-binding sequences showed that, although either of the two tandem STAT-binding sequences binds STAT4 weakly, the presence of both is required for significant binding of activated STAT4 and for formation of the STAT4-DNA-binding complex with lower electrophoretic mobility. Furthermore, mutation of either of the tandem STAT-binding sequences abolished the IL-12-induced activation of the perforin gene promoter in reporter gene assays. These results indicate that the IL-12-induced expression of the perforin gene in NK cells is directly regulated by STAT4, which binds, most likely as a homo-tetramer, to the tandem STAT-binding sequences in the perforin gene promoter.     

The lipF promoter of Mycobacterium tuberculosis is upregulated specifically by acidic pH but not by other stress conditions

The lipF gene of Mycobacterium tuberculosis has been implicated in pathogenesis and its promoter has been shown to be upregulated by acidic stress. To further define the acidic pH that upregulates the lipF promoter from M. tuberculosis and to establish that it is specifically upregulated by acid stress and not by other environmental stresses, promoter expression levels were measured under a variety of conditions. The conditions measured were pH, temperature, oxidative stress, and hypoxic stress.     

A Cre gene directed by a human TSPY promoter is specific for germ cells and neurons

The testis-specific protein Y-encoded (TSPY) gene is a candidate for the gonadoblastoma locus on the Y chromosome and is expressed in normal testicular germ cells and gonadoblastoma cells of XY sex-reversed females. Although TSPY expression has been demonstrated in gonadoblastoma tissues, it is uncertain if such expression is involved in a causative or consequential event of the oncogenic process. We postulate that if TSPY is involved in gonadoblastoma development, its promoter should be functional in the female gonad before and/or at early stages of tumorigenesis. To test this hypothesis, we generated several lines of transgenic mice harboring a Cre-recombinase transgene directed by a 2.4-kb hTSPY promoter. These mice were crossed with the Z/EG reporter line that expresses EGFP only after a Cre-mediated recombination. Our results showed that hTSPY-Cre;Z/EG double transgenic mice expressed EGFP specifically in the germ cells of both male and female gonads. Further, neurons of the central and peripheral nervous systems also expressed EGFP as early as E12.5 embryonic stage. EGFP was particularly observed in the trigeminal nerve, trigeminal ganglion, dorsal root of the ganglia, and in postnatal and adult brains. These observations support the hypothesis that TSPY plays an active role in gonadoblastoma. The tissue-specific expression of the hTSPY-Cre transgene should also be useful in studies utilizing Cre-mediated gene activation/inactivation strategies in gamatogenesis and/or neurogenesis.