No abstract
Expression and Characterization of CD4-IgG2, a Novel Heterotetramer That Neutralizes Primary HIV Type 1 Isolates
CD4-IgG2 is a novel fusion protein comprising human IgG2 in which the Fv portions of both heavy and light chains have been replaced by the V1 and V2 domains of human CD4. This tetrameric protein is being developed as an immunoprophylactic agent to reduce the probability of infection following HIV-1 exposure, in settings such as occupational or perinatal exposure to the virus. CD4-IgG2 has been expressed in Chinese hamster ovary cells and is secreted as a fully assembled heterotetramer. The protein binds with nanomolar affinity to purified gp120 from both a laboratory-adapted strain and a primary isolate of HIV-1. Pharmacokinetic studies in rabbits demonstrated that CD4-IgG2 has a plasma terminal half-life greater than 1 day, compared with 15 min for soluble CD4 (sCD4). CD4-IgG2 does not bind to Fc receptors on the surface of U937 monocyte/macrophage cells. Compared to molecules that incorporate the Fc portion of IgG1, CD4-IgG2 has less potential to mediate functions such as antibody-dependent enhancement of infection or transplacental transmission of HIV-1. When tested in a virus-free HIV-1 envelope glycoprotein-mediated cell fusion assay, the tetrameric CD4-IgG2 molecule inhibited syncytium formation more effectively than monomeric sCD4 or a dimeric CD4-gamma 2 fusion protein. This suggests the protein will block cell-to-cell transmission of HIV-1. Moreover, CD4-IgG2 effectively neutralized a panel of laboratory-adapted strains and primary isolates of HIV-1, including strains with different tropisms and isolated from different stages of the disease, at concentrations that should be readily achieved in vivo.
Serial analysis of gene expression (SAGE) allows for a quantitative, representative, and comprehensive pro®le of gene expression. We have utilized SAGE technology to contrast the di erential gene expression pro®le in rat embryo ®broblast cells producing temperature-sensitive p53 tumor suppressor protein at permissive or nonpermissive temperatures. Analysis of *15 000 genes revealed that the expression of 14 genes (P50.001, 50.03% abundance) was dependent on functional p53 protein, whereas the expression of three genes was signi®cantly higher in cells producing non-functional p53 protein. Those genes whose expression was increased by functional p53 include RAS, U6 snRNA, cyclin G, EGR-1, and several novel genes. The expression of actin, tubulin, and HSP70 genes was elevated at the nonpermissive temperature for p53 function. Interestingly, the expression of several genes was dependent on a nontemperature-sensitive mutant p53 suggesting altered transcription pro®les dependent on speci®c p53 mutant proteins. These results demonstrate the utility of SAGE for rapidly and reproducibly evaluating global transcriptional responses within di erent cell populations.
Secretion of endogenous and exogenous proteins from polarized MDCK cell monolayers.
Confluent monolayers of MDCK (MadinDarby canine kidney) cells provide a widely used system to study the biogenesis of epithelial cell polarity. We now report that these cells are also capable of the vectorial constitutive secretion of a major endogenous product, a glycoprotein of 81 kDa, which is released into the medium from the apical surface within 30 min of its synthesis. This release represents a bona fide exocytotic secretory process and is not the result of proteolytic cleavage of a plasma membrane-associated precursor since, in cells treated with chloroquine, a protein indistinguishable from the mature secretory product accumulated intracellularly. In contrast to the vectorial secretion of the endogenous product, a variety of exogenous exocrine and endocrine proteins synthesized in MDCK cells transfected with the corresponding genes were secreted from both the apical and basolateral surfaces. These included proteins such as rat growth hormone, chicken oviduct lysozyme, bovine gastric prochymosin, and rat salivary gland a2.-globulin, which in their cells oforigin are secreted via a regulated pathway, as well as the liver form of the au2-globulin and the immunoglobulin c chain, which are normally released constitutively. These results demonstrate the existence of secretory pathways that lead to both surfaces of MDCK cells and are accessible to the foreign secretory products. They are consistent with the operation of a sorting mechanism in which the polarized secretion of the endogenous product is effected through the recognition of signals that prevent its random distribution within the fluid phase in the cellular endomembrane system. Secretory proteins and many plasma membrane proteins are synthesized in the rough endoplasmic reticulum and reach the cell surface through at least partially overlapping routes, which include the Golgi apparatus (see refs. 1 and 2). In polarized epithelial cells, plasma membrane proteins that are to be segregated in basolateral or apical domains are sorted intracellularly, during or soon after passage through the Golgi apparatus, and are delivered directly to one or the other aspect of the cell surface (3-5). In many epithelial cells protein secretion also takes place in a polarized fashion. For example, in acinar cells of exocrine glands, secretory products are first packaged into granules that, upon stimulation, release their content at the apical cell surface. Secretory proteins that are not packaged into granules and are secreted constitutively may also be released exclusively from one cell surface domain, as is the case with serum proteins that are secreted from hepatocytes into the perisinusoidal space (6) or with thyroglobulin, which in the thyroid follicle cells is discharged into the follicular lumen (7). The mechanism that accounts for polarized constitutive secretion is not understood, although, in principle, the sorting process that addresses secretory proteins to each aspect of the cell surface could involve the same vesicles that effect the polarized del...
Salmonella enterica serovar Heidelberg is the second most frequently occurring serovar in Quebec and the third-most prevalent in Canada. Given that conventional pulsed-field gel electrophoresis (PFGE) subtyping for common Salmonella serovars, such as S. Heidelberg, yields identical subtypes for the majority of isolates recovered, public health laboratories are desperate for new subtyping tools to resolve highly clonal S. Heidelberg strains involved in outbreak events. As PFGE was unable to discriminate isolates from three epidemiologically distinct outbreaks in Quebec, this study was conducted to evaluate whole-genome sequencing (WGS) and phylogenetic analysis as an alternative to conventional subtyping tools. Genomes of 46 isolates from 3 Quebec outbreaks (2012, 2013, and 2014) supported by strong epidemiological evidence were sequenced and analyzed using a highquality core genome single-nucleotide variant (hqSNV) bioinformatics approach (SNV phylogenomics [SNVphyl] pipeline). Outbreaks were indistinguishable by conventional PFGE subtyping, exhibiting the same PFGE pattern (SHEXAI.0001/ SHEBNI.0001). Phylogenetic analysis based on hqSNVs extracted from WGS separated the outbreak isolates into three distinct groups, 100% concordant with the epidemiological data. The minimum and maximum number of hqSNVs between isolates from the same outbreak was 0 and 4, respectively, while >59 hqSNVs were measured between 2 previously indistinguishable outbreaks having the same PFGE and phage type, thus corroborating their distinction as separate unrelated outbreaks. This study demonstrates that despite the previously reported high clonality of this serovar, the WGS-based hqSNV approach is a superior typing method, capable of resolving events that were previously indistinguishable using classic subtyping tools. Nontyphoidal Salmonella enterica strains are important bacterial agents of salmonellosis in humans and animals (1) and represent up to 125,000 cases annually of foodborne gastroenteric disease arising from sporadic and outbreak events in Canada (2). More than 2,500 Salmonella enterica serovars have been described, but only a few have been associated with cases of human illness (3, 4). Salmonella Heidelberg ranks third and fourth among serovars causing human illness in Canada (5) and the United States (6), respectively, and is commonly detected in retail meat samples and food animals. While the majority of Salmonella infections are mild and self-limiting, S. Heidelberg can cause more severe diseases, including septicemia, myocarditis, extraintestinal infections, and death (7,8).Pulsed-field gel electrophoresis (PFGE) is the gold standard method used by Canadian public health laboratories for the molecular typing of S. Heidelberg, following standardized procedures set out by the PulseNet Canada guidelines. A well-recognized limitation of this classic typing method is that strains bearing highly common PFGE patterns occasionally render PFGE ineffective at detecting foodborne outbreaks from background sporadic cases, thus li...
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
