Heparan Sulfate Proteoglycan Binding by Herpes Simplex Virus Type 1 Glycoproteins B and C, Which Differ in Their Contributions to Virus Attachment, Penetration, and Cell-to-Cell Spread

Herpes simplex virus type 1 (HSV-1) mutants defective for envelope glycoprotein C (gC) and gB are highly impaired in the ability to attach to cell surface heparan sulfate (HS) moieties of proteoglycans, the initial virus receptor. Here we report studies aimed at defining the HS binding element of HSV-1 (strain KOS) gB and determining whether this structure is functionally independent of gB’s role in extracellular virus penetration or intercellular virus spread. A mutant form of gB deleted for a putative HS binding lysine-rich (pK) sequence (residues 68 to 76) was transiently expressed in Vero cells and shown to be processed normally, leading to exposure on the cell surface. Solubilized gBpK⁻ also had substantially lower affinity for heparin-acrylic beads than did wild-type gB, confirming that the HS binding domain had been inactivated. The gBpK⁻ gene was used to rescue a KOS gB null mutant virus to produce the replication-competent mutant KgBpK⁻. Compared with wild-type virus, KgBpK⁻ showed reduced binding to mouse L cells (ca. 20%), while a gC null mutant virus in which the gC coding sequence was replaced by the lacZ gene (KCZ) was substantially more impaired (ca. 65%-reduced binding), indicating that the contribution of gC to HS binding was greater than that of gB. The effect of combining both mutations into a single virus (KgBpK⁻gC⁻) was additive (ca. 80%-reduced binding to HS) and displayed a binding activity similar to that observed for KOS virus attachment to sog9 cells, a glycosaminoglycan-deficient L-cell line. Cell-adsorbed individual and double HS mutant viruses exhibited a lower rate of virus entry following attachment, suggesting that HS binding plays a role in the process of virus penetration. Moreover, the KgBpK⁻ mutant virus produced small plaques on Vero cells in the presence of neutralizing antibody where plaque formation depended on cell-to-cell virus spread. These studies permitted the following conclusions: (i) the pK sequence is not essential for gB processing or function in virus infection, (ii) the lysine-rich sequence of gB is responsible for HS binding, and (iii) binding to HS is cooperatively linked to the process of efficient virus entry and lateral spread but is not absolutely required for virus infectivity.     

Control of Cytomegalovirus in Bone Marrow Transplantation Chimeras Lacking the Prevailing Antigen-Presenting Molecule in Recipient Tissues Rests Primarily on Recipient-Derived CD8 T Cells

Cytomegalovirus (CMV) infection during the transient immunodeficiency after bone marrow transplantation (BMT) develops into disease unless antiviral CD8 T cells are restored in due course. Histoincompatibility between donor and recipient is associated with increased risk. Complications may include a rejection response against the foreign major histocompatibility complex (MHC) antigens and a lack of antiviral control resulting from a misfit between donor-derived T cells and the antigenic viral peptides presented in recipient tissues. Here we have established a murine model of CMV disease after experimental BMT performed across a single MHC class I disparity. Specifically, BALB/c bone marrow cells expressing the prevailing antigen-presenting molecule L^d were transplanted into the L^d gene deletion mutant BALB/c-H-2^dm2, an experimental setting that entails a selective risk of host-versus-graft but not graft-versus-host response. The reconstituted T-cell population proved to be chimeric in that it consisted of L^d-positive donor-derived and L^d-negative recipient-derived cells. Pulmonary infiltrates did not include cytolytic T cells directed against L^d. This finding implies that the infection did not trigger a host-versus-graft response. Notably, upon adoptive transfer, donor-derived CD8 T cells preferentially protected tissues of donor genotype, whereas recipient-derived CD8 T cells protected tissues of either genotype. We infer from these data that the focus on immunodominant antigens presented by L^d within the donor cell population distracted the donor T cells from protecting recipient tissues and that protection in the chimeras was therefore primarily based on recipient T cells. As a consequence, T-cell chimerism after BMT should give a positive prognosis with respect to control of CMV.Cytomegaloviruses (CMV) are kept under tight immune control (for reviews, see references 22 and 23). As a consequence, acute CMV infection is resolved rapidly and does not result in disease unless the host is immunologically immature or immunocompromised. Bone marrow (BM) transplantation (BMT) as a therapy of hematological malignancies is associated with a transient immunodeficiency. Accordingly, during the period of immunocompromise, transmission of donor-type CMV with the transplant as well as recurrence of CMV from latency established within the organs of the transplantation recipient both entail a risk for destructive virus replication in tissues resulting in multiple-organ CMV disease (16). In BMT recipients, CMV-induced interstitial pneumonia is a frequent and endangering manifestation of CMV disease (11, 27). However, CMV infection does not inevitably result in fatal disease. It appears that CD8 T-cell reconstitution is the decisive parameter in the control of CMV after BMT. Clinical data have shown that both efficient reconstitution of CD8 T cells (41) and supplementation of antiviral CD8 T cells by preemptive cytoimmunotherapy with T-cell lines (42, 50) correlate with a reduced risk of human CMV disease, whereas combined in vivo-ex vivo T-cell depletion, intended as a prophylaxis against graft-versus-host (GvH) disease, accidentally resulted in an increased incidence of CMV infections in BMT patients (14). Aspects of these clinical problems can be approached experimentally in a murine model of BMT and concurrent infection with murine CMV (for an overview, see reference 35). Specifically, depletion of CD8 T cells, but not of CD4 T cells, performed in vivo during the phase of reconstitution after BMT abolished the development of protective antiviral immunity, with an inevitably lethal outcome (34, 47) resulting from multiple-organ pathology (34), including BM aplasia (29, 30). Likewise, an insufficient endogenous reconstitution was successfully supplemented by experimental adoptive cytoimmunotherapy with antiviral CD8 T cells. Again, CD4 T cells were not effective (36, 37, 39, 47). Altogether, clinical data on human CMV infection and experimental data from the murine model have so far been concordant and have identified CD8 T cells as the principal effectors controlling CMV infections after BMT.These findings imply that all conditions which lower the efficacy of CD8 T-cell reconstitution will increase the risk for progression of asymptomatic CMV infection to fatal CMV disease. Histoincompatibility between graft and recipient is a factor likely to negatively influence the restoration of antiviral immunity. Accordingly, even though cases of severe human CMV disease have been reported also after autologous BMT (27, 40), the incidence of CMV-related complications is generally higher after histoincompatible BMT (51). In clinical BMT, donor and recipient are usually matched in major histocompatibility complex (MHC) class II molecules, whereas differences in minor histocompatibility loci and in MHC class I loci are tolerated if unavoidable. Complications caused in the CMV-infected recipient by histoincompatibility may include (i) an impaired engraftment of transplanted cells in the recipient BM stroma, (ii) an immunological GvH response as well as a host-versus-graft (HvG) response directed against the foreign minor or major histocompatibility molecules, and (iii) a lack of antiviral T-cell control resulting from an inappropriate repertoire of viral antigenic peptides presented by infected tissue cells of the transplantation recipient.In a first attempt to dissect these possibilities, we have established a murine model of experimental BMT performed across a single MHC class I disparity, namely, the presence and absence of the L^d molecule in BALB/c mice (MHC class I molecules K^d, D^d, and L^d) and the L^d gene deletion mutant BALB/c-H-2^dm2 (44), respectively. Depending on the choice of donor and recipient for the BMT, immunogenetical GvH and HvG conditions can be studied separately (35). Work presented herein focuses on the HvG setting with BALB/c as the donor strain and the mutant as the recipient. Hence, after incomplete depletion of hematopoietic cells of the recipients, this model entails a risk for graft rejection caused by a recipient response directed against the donor MHC class I molecule L^d. In addition, presentation of viral peptides by L^d, including the immunodominant IE1 nonapeptide of murine CMV (18, 38), is confined to donor-derived hematopoietic cells and their progeny, whereas the parenchymal and stromal sites of cytocidal infection (34) lack L^d as the prevailing peptide presenter. The aim of the study was to investigate the influence of this particular MHC class I disparity on the control of murine CMV after BMT.     

Control of Murine Cytomegalovirus in the Lungs: Relative but Not Absolute Immunodominance of the Immediate-Early 1 Nonapeptide during the Antiviral Cytolytic T-Lymphocyte Response in Pulmonary Infiltrates

The lungs are a major organ site of cytomegalovirus (CMV) infection, pathogenesis, and latency. Interstitial CMV pneumonia represents a critical manifestation of CMV disease, in particular in recipients of bone marrow transplantation (BMT). We have employed a murine model for studying the immune response to CMV in the lungs in the specific scenario of immune reconstitution after syngeneic BMT. Control of pulmonary infection was associated with a vigorous infiltration of the lungs, which was characterized by a preferential recruitment and massive expansion of the CD8 subset of α/β T cells. The infiltrate provided a microenvironment in which the CD8 T cells differentiated into mature effector cells, that is, into functionally active cytolytic T lymphocytes (CTL). This gave us the opportunity for an ex vivo testing of the antigen specificities of CTL present at a relevant organ site of viral pathogenesis. The contribution of the previously identified immediate-early 1 (IE1) nonapeptide of murine CMV was evaluated by comparison with the CD3-redirected cytolytic activity used as a measure of the overall CTL response in the lungs. The IE1 peptide was detected by pulmonary CTL, but it accounted for a minor part of the response. Interestingly, no additional viral or virus-induced antigenic peptides were detectable among naturally processed peptides derived from infected lungs, even though infected fibroblasts were recognized in a major histocompatibility complex-restricted manner. We conclude that the antiviral pulmonary immune response is a collaborative function that involves many antigenic peptides, among which the IE1 peptide is immunodominant in a relative sense.     

Neutral Aminopeptidase and Dipeptidyl Peptidase IV Activities in Plasma of Monosodium Glutamate Obese and Food‐deprived Rats

Biometric parameters, glycemia and activity levels of plasma neutral aminopeptidase (APN) and dipeptidyl peptidase IV (DPPIV) were measured in monosodium glutamate obese and food‐deprived rats (MSG‐FD), to analyze the involvement of these enzymes in such situations. Plasma APN was distinguished as sensitive (PSA) (K_m = 7.8 × 10^?5 mol/l) and predominantly insensitive (APM) (K_m = 21.6 × 10^?5 mol/l) to puromycin, whereas DPPIV was sensitive (DPPIV‐DS) (K_m = 0.24 × 10^?5 mol/l) and predominantly insensitive (DPPIV‐DI) (K_m = 7.04 × 10^?5 mol/l) to diprotin A. Although unchanged in the MSG and food‐deprived animals, APM activity levels were closely correlated with body mass, Lee index, and mass of retroperitoneal fat pad in the food deprived, but not in the MSG animals. DPPIV‐DI activity levels decreased by 33% and were correlated with body mass, Lee index, and mass of periepididymal fat pad in the food‐deprived MSG rats. These data suggest that APM and DPPIV‐DI are respectively related to the downregulation of somatostatin in food‐deprived rats, and to the recovery of energy balance in MSG obese rats during food deprivation.     

Social and immunological differences among uninfected Brazilians exposed or unexposed to human immunodeficiency virus-infected partners

Understanding the social conditions and immunological characteristics that allow some human immunodeficiency virus (HIV)-exposed patients to remain uninfected represents an on-going challenge. In this study, the socio-demographic and sexual behaviour characteristics and immune activation profiles of uninfected individuals exposed to HIV-infected partners were investigated. A confidential and detailed questionnaire was administered and venous blood was tested using HIV-1/enzyme immunoassays, plasma HIV-1 RNA levels/bDNA and immunophenotyping/flow cytometry to determine the frequencies of CD4 and CD8 T cells expressing activation markers. The data analysis showed significant differences (p < 0.05) for immune parameters in individuals who were uninfected, albeit exposed to HIV-infected partners, compared with unexposed individuals. In particular, the exposed, uninfected individuals had a higher frequency (median, minimum-maximum) of CD4⁺HLA-DR⁺ (4.2, 1.8-6.1), CD8⁺HLA-DR⁺ (4.6, 0.9-13.7), CD4⁺CD45RO⁺ (27.5, 14.2-46.6), CD4⁺CD45RO⁺CD62L⁺ (46.7, 33.9-67.1), CD8⁺CD45RA⁺HLA-DR⁺ (12.1, 3.4-35.8) and CD8⁺CD45RO⁺HLA-DR⁺ (9.0, 3.2-14.8) cells, a decreased percentage of CD8⁺CD28⁺ cells (11.7, 4.5-24.0) and a lower cell-surface expression of Fcγ-R/CD16 on monocytes (56.5, 22.0-130.0). The plasma HIV-1 RNA levels demonstrated detectable RNA virus loads in 57% of the HIV-1⁺ female partners. These findings demonstrate an activation profile in both CD4 and CD8 peripheral T cells from HIV-1 exposed seronegative individuals of serodiscordant couples from a referral centre in Belo Horizonte, state of Minas Gerais.     

Encapsulation in a sol–gel matrix of lipase from Aspergillus niger obtained by bioconversion of a novel agricultural residue

Lipase from Aspergillus niger was obtained from the solid-state fermentation of a novel agroindustrial residue, pumpkin seed flour. The partially purified enzyme was encapsulated in a sol–gel matrix, resulting in an immobilization yield of 71.4 %. The optimum pH levels of the free and encapsulated enzymes were 4.0 and 3.0, respectively. The encapsulated enzyme showed greater thermal stability at temperatures of 45 and 60 °C than the free enzyme. The positive influence of the encapsulation process was observed on the thermal stability of the enzyme, since a longer half-life t _1/2 and lower deactivation constant were obtained with the encapsulated lipase when compared with the free lipase. Kinetic parameters were found to follow the Michaelis–Menten equation. The K _m values indicated that the encapsulation process reduced enzyme–substrate affinity and the V _max was about 31.3 % lower than that obtained with the free lipase. The operational stability was investigated, showing 50 % relative activity up to six cycles of reuse at pH 3.0 at 37 °C. Nevertheless, the production of lipase from agroindustrial residue associated with an efficient immobilization method, which promotes good catalytic properties of the enzyme, makes the process economically viable for future industrial applications.     

Studies toward the structural optimization of novel thiazolylhydrazone-based potent antitrypanosomal agents

In previous studies, we identified promising anti-Trypanosoma cruzi cruzain inhibitors based on thiazolylhydrazones. To optimize this series, a number of medicinal chemistry directions were explored and new thiazolylhydrazones and thiosemicarbazones were thus synthesized. Potent cruzain inhibitors were identified, such as thiazolylhydrazones 3b and 3j, which exhibited IC(50) of 200-400nM. Furthermore, molecular docking studies showed concordance with experimentally derived structure-activity relationships (SAR) data. In the course of this work, lead compounds exhibiting in vitro activity against both the epimastigote and trypomastigote forms of T. cruzi were identified and in vivo general toxicity analysis was subsequently performed. Novel SAR were documented, including the importance of the thiocarbonyl carbon attached to the thiazolyl ring and the direct comparison between thiosemicarbazones and thiazolylhydrazones.