Paul Dazin

HIV-1 nef leads to inhibition or activation of T cells depending on its intracellular localization

Nef of primate lentiviruses is required for viremia and progression to AIDS in monkeys. Negative, positive, and no effects of Nef have also been reported on viral replication in cells. To reconcile these observations, we expressed a hybrid CD8-Nef protein in Jurkat cells. Two opposite phenotypes were found, which depended on the intracellular localization of Nef. Expressed in the cytoplasm or on the cell surface, the chimera inhibited or activated early signaling events from the T cell antigen receptor. Activated Jurkat cells died by apoptosis, and only cells with mutated nef genes expressing truncated Nefs survived, which rendered Nef nonfunctional. These mutations paralleled those in other viral strains passaged in vitro. Not only do these positional effects of Nef reconcile diverse phenotypes of Nef and suggest a role for its N-terminal myristylation, but they also explain effects of Nef in HIV infection and progression to AIDS.

FAK promotes organization of fibronectin matrix and fibrillar adhesions

Targeted disruption of the focal adhesion kinase (FAK) gene in mice is lethal at embryonic day 8.5 (E8.5). Vascular defects in FAK-/- mice result from the inability of FAK-deficient endothelial cells to organize themselves into vascular network. We found that, although fibronectin (FN) levels were similar, its organization was less fibrillar in both FAK-/- endothelial cells and mesoderm of E8.5 FAK-/- embryos, as well as in mouse embryonic fibroblasts isolated from mutant embryos. FAK catalytic activity, proline-rich domains, and location in focal contacts were all required for proper allocation and patterning of FN matrix. Cells lacking FAK in focal adhesions fail to translocate supramolecular complexes of integrin-bound FN and focal adhesion proteins along actin filaments to form mature fibrillar adhesions. Taken together, our data suggest that proper FN allocation and organization are dependent on FAK-mediated remodeling of focal adhesions.

Characterization and functionality of proliferative human Sertoli cells.

It has long been thought that mammalian Sertoli cells are terminally differentiated and nondividing postpuberty. For most previous in vitro studies immature rodent testes have been the source of Sertoli cells and these have shown little proliferative ability when cultured. We have isolated and characterized Sertoli cells from human cadaveric testes from seven donors ranging from 12 to 36 years of age. The cells proliferated readily in vitro under the optimized conditions used with a doubling time of approximately 4 days. Nuclear 5-ethynyl-2′-deoxyuridine (EdU) incorporation confirmed that dividing cells represented the majority of the population. Classical Sertoli cell ultrastructural features, lipid droplet accumulation, and immunoexpression of GATA-4, Sox9, and the FSH receptor (FSHr) were observed by electron and fluorescence microscopy, respectively. Flow cytometry revealed the expression of GATA-4 and Sox9 by more than 99% of the cells, and abundant expression of a number of markers indicative of multipotent mesenchymal cells. Low detection of endogenous alkaline phosphatase activity after passaging showed that few peritubular myoid cells were present. GATA-4 and SOX9 expression were confirmed by reverse transcription polymerase chain reaction (RT-PCR), along with expression of stem cell factor (SCF), glial cell line-derived neurotrophic factor (GDNF), and bone morphogenic protein 4 (BMP4). Tight junctions were formed by Sertoli cells plated on transwell inserts coated with fibronectin as revealed by increased transepithelial electrical resistance (TER) and polarized secretion of the immunoregulatory protein, galectin-1. These primary Sertoli cell populations could be expanded dramatically in vitro and could be cryopreserved. The results show that functional human Sertoli cells can be propagated in vitro from testicular cells isolated from adult testis. The proliferative human Sertoli cells should have important applications in studying infertility, reproductive toxicology, testicular cancer, and spermatogenesis, and due to their unique biological properties potentially could be useful in cell therapy.

Distribution of somatostatin receptors on murine spleen and Peyer's patch T and B lymphocytes

Recent evidence suggests that the neuropeptide somatostatin (SOM) plays an immunoregulatory role. We demonstrated previously that SOM inhibits concanavalin A-induced cell proliferation and immunoglobulin synthesis by murine Peyers patch and splenic lymphocytes. Available data suggest that these effects are in part mediated by specific SOM receptors expressed by lymphocytes, but as yet these receptors have not been characterized. Using cytofluorimetry we investigated the distribution and specificity of binding of fluorescent SOM (SOM*) to murine Peyers patch and splenic T- and B-lymphocyte subpopulations. The specificity of binding was confirmed by radioassay. T and B cells from both organs showed specific binding of SOM*. In Peyers patches, approximately 50% of all cell populations studied (whole, T- and B-cell-enriched) bound SOM specifically and this was significantly higher than the corresponding splenic lymphocyte populations. Eighty to eighty-four percent of Peyers patch Thy1.2+, Lyt1+, or L3T4+ cells and 94% of Lyt2+ cells bound SOM. Greater than 80% of B cells from this organ bound SOM (sIgA+ = sIgM+ greater than sIgG+ cells). In spleen, approximately 30% of Thy1.2+, Lyt1+, or L3T4+ cells bound SOM and this was significantly less than the proportion of Lyt2+ cells (53%) which did so. More sIgA+ (89%) than sIgG+ (66%) than sIgM+ (55%) B cells bound SOM*. Although we have previously shown that the effect of SOM on immunoglobulin synthesis was relatively isotype-specific (IgA synthesis was predominantly affected, especially in Peyers patches) this cannot be explained solely on the basis of preferential expression of SOM receptors by distinct lymphocyte subsets. Instead, it is probably the result of the specific immunological microenvironment in which the lymphocytes reside.

Chromosome 1 Charcot-Marie-Tooth disease (CMT1B) locus in the Fcγ receptor gene region

Roger V. Lebo l, Phillip E Chance 2, Peter J. Dyck 3, Ma. Theresa Redila-Flores 1, Eric D. Lynch 1, Mitchell S. Golbus 1, Thomas D. Bird 4, Mary Claire King 5, Lee A. Anderson 1,5, Jeffrey Hall 5, Joop Wiegant 6, Zharong Jiang 1, Paul F. Dazin 1, Hope H. Punnett 7, Steven A. Schonberg 1, Kevin Moore s, Marcia M. Shull 9, Sandra Gendler j~ Orest Hurko ]l, Robert E. Lovelace ]2, Norman Latov 12, James Trofatter 13, P. Michael Conneally 13

Tumor necrosis factor-α-converting enzyme controls surface expression of c-Kit and survival of embryonic stem cell-derived mast cells

Transmembrane metalloproteinases of the disintegrin and metalloproteinase (ADAM) family control cell signaling interactions via hydrolysis of protein extracellular domains. Prior work has shown that the receptor tyrosine kinase, c-Kit (CD117), is essential for mast cell survival and that serum levels of c-Kit increase in proliferative mast cell disorders, suggesting the existence of c-Kit shedding pathways in mast cells. In the present work, we report that tumor necrosis factor α-converting enzyme (TACE; ADAM-17) mediates shedding of c-Kit. Stimulation of transfected cells with phorbol 12-myristate 13-acetate (PMA) induced metalloproteinase-mediated release of c-Kit ectodomain, which increased further upon TACE overexpression. By contrast, TACE-deficient fibroblasts did not demonstrate inducible release, thus identifying TACE as the metalloproteinase primarily responsible for PMA-induced c-Kit shedding. Surface expression of c-Kit by the human mast cell-1 line decreased upon phorbol-induced shedding, which involved metalloproteinase activity susceptible to inhibition by tissue inhibitor of metalloproteinase (TIMP)-3. To further explore the role of TACE in shedding of c-Kit from mast cells, we compared the behavior of mast cells derived from murine embryonic stem cells. In these studies, PMA decreased surface c-Kit levels on mast cells expressing wild-type (+/+) TACE but not on those expressing an inactive mutant (ΔZn/ΔZn), confirming the role of TACE in PMA-induced c-Kit shedding. Compared with TACE+/+ cells, TACEΔZn/ΔZn mast cells also demonstrated decreased constitutive shedding and increased basal surface expression of c-Kit, with diminished apoptosis in response to c-Kit ligand deprivation. These data suggest that TACE controls mast cell survival by regulating shedding and surface expression of c-Kit.

Adaptation of a simple flow cytometric assay to identify different stages during apoptosis

Apoptosis occurs under many different physiological and pathological conditions, and it reflects a genetically encoded suicide program that can be triggered by different stimuli in susceptible cells. We adapted a flow cytometric assay for the detection of apoptosis based on differential staining of viable cells with two different DNA binding dyes, propidium iodide (PI) and Hoechst 33342 (Ho342). Apoptosis was induced in different cell lines by gamma irradiation, an anti-FAS monoclonal antibody, or ganciclovir in Herpes simplex virus-thymidine kinase-expressing cells. We could identify three different populations that appeared sequentially after the induction of apoptosis. Cells corresponding to these populations were sorted and assessed for evidence of apoptosis as determined by alterations of nuclear morphology and detection of endonucleolytic activity. This analysis revealed a PI- population with subtle apoptotic changes and increased Ho342 fluorescence compared with untreated cells. Extensive apoptotic alterations were observed in a PI+ population that increased over time following the induction of apoptosis. A third population was characterized by an intermediate intensity of PI fluorescence and decreased Ho342 fluorescence compared with the other populations. This population appeared late after treatment and consisted of apoptotic bodies. Taken together, these data suggest that distinct stages of apoptosis can be identified by differential staining of cells with Ho342 and PI. This assay should be useful for the detection and further characterization of cells at different stages in the apoptotic process.

c-Kit immunophenotyping and metalloproteinase expression profiles of mast cells in interstitial lung diseases

Diverse interstitial lung diseases (ILD) demonstrate mesenchymal infiltration by an abundance of activated mast cells whose role in parenchymal fibrogenesis remains unclear. Since mast cells differentiate in a dynamic, tissue‐specific manner via signals transduced by c‐Kit receptor, we examined the effect of ILD microenvironments on c‐Kit expression and metalloproteinase phenotypes of mesenchymal mast cell populations. Immunohistochemical and flow cytometric analyses characterized surface expression of c‐Kit on mast cells in tissues obtained from patients with idiopathic pulmonary fibrosis, systemic sclerosis, sarcoidosis, and lymphangioleiomyomatosis, thus identifying a unique immunophenotype not shared by normal lung mast cells. Isolation of c‐Kit+/FcεRI+/CD34− mast cells via immunocytometric sorting of heterogeneous cell populations from mechanically disaggregated lung tissues permitted analysis of gene expression patterns by two‐step real‐time polymerase chain reaction. Transcriptional profiling identified expression of c‐Kit and the neutral serine proteases, tryptase and chymase, establishing the identity of sorted populations as mature mast cells. Mast cells harvested from ILD tissues demonstrated characteristic metalloproteinase phenotypes which included expression of matrix metalloproteinase (MMP)‐1 and a disintegrin and metalloproteinase (ADAM)‐9, ‐10, and ‐17. Immunohistochemical co‐localization guided by gene profiling data confirmed expression of chymase, MMP‐1, and ADAM‐17 protein in subpopulations of mast cells in remodelling interstitium. Gene profiling of harvested mast cells also showed increased transcript copy numbers for TNFα and CC chemokine receptor 2, which play critical roles in lung injury. We conclude that ILD microenvironments induce unique c‐Kit receptor and metalloproteinase mast cell phenotypes. Copyright

Characterization of receptors using cyanine 3-labeled neuropeptides

We labeled substance P (SP), neurokinin A (NKA), and [Lys0]gastrin-releasing peptide-27 (GRP) with cyanine 3.18 (cy3). Cy3-peptides purified by HPLC were fully active, determined by [Ca2+]i mobilization. Binding was specific because it was abolished by unlabeled peptides and receptor antagonists. Transfected cells yielded a log-fold greater cy3 intensity than control cells by FACS. Confocal microscopy of transfected cells and cultured enteric neurons showed that cy3-SP bound to surface receptors and was internalized. Internalization was observed in living cells by capture of sequential images. Recovery of surface binding sites was monitored by flow cytometry using cy3-SP. Thus, cy3 neuropeptides can be used to isolate and study receptor-bearing cells.

Liposome targeting to human immunodeficiency virus type 1-infected cells via recombinant soluble CD4 and CD4 immunoadhesin (CD4-IgG)

HIV-infected cells producing virions express the viral envelope glycoprotein gp120/gp41 on their surface. We examined whether liposomes coupled to recombinant soluble CD4 (sCD4, the ectodomain of CD4 which binds gp120 with high affinity) could specifically bind to HIV-infected cells. sCD4 was chemically coupled by 2 different methods to liposomes containing rhodamine-phosphatidylethanolamine in their membrane as a fluorescent marker. In one method, sCD4 was thiolated with N-succinimidyl acetylthioacetate (SATA) and coupled to liposomes via a maleimide-derivatised phospholipid. In the other method, the oligosaccharides on sCD4 were coupled to a sulfhydryl-derivatised phospholipid, utilizing the bifunctional reagent, 4-(4-N-maleimidophenyl)butyric acid hydrazide (MPBH). The association of the liposomes with HIV-1-infected or uninfected cells was examined by flow cytometry. CD4-coupled liposomes associated specifically to chronically infected H9/HTLV-IIIB cells, but not to uninfected H9 cells. CD4-coupled liposomes also associated specifically with monocytic THP-1 cells chronically infected with HIV-1 (THP-1/HIV-1IIIB). Control liposomes without coupled CD4 did not associate significantly with any of the cells, while free sCD4 could competitively inhibit the association of the CD4-coupled liposomes with the infected cells. The chimeric molecule CD4-immunoadhesin (CD4-IgG) could also be used as a ligand to target liposomes with covalently coupled Protein A (which binds the Fc region of the CD4-IgG) to H9/HTLV-IIIB cells. The CD4-liposomes inhibited the infectivity of HIV-1 in A3.01 cells, and also bound rgp120. Our results suggest that liposomes containing antiviral or cytotoxic agents may be targeted specifically to HIV-infected cells.