Selective inhibition of fibroblasts by spermine in primary cultures of normal human skin epithelial cells

Summary Overgrowth with fibroblasts has been a major problem in the cultivation of normal human skin epithelium. In the present study it is shown that the addition of spermine to the culture medium in micromolar concentrations has a differential cytotoxic effect on fibroblasts allowing the cultivation of human skin epithelial cells in primary culture without fibroblastic overgrowth. Putrescine, another polyamine, is shown to be equally cytotoxic to fibroblasts and epithelial cells when added in millimolar concentrations; below this concentration range no cytotoxic effect could be demonstrated. This difference in cytotoxicity between spermine and putrescine is suggested to depend on the conversion of spermine, but not putrescine, and to highly cytotoxic products by an amine oxidase present in fetal bovine serum. This project was supported by the Novo foundation.     

Role of natural killer T cells in host defence against cryptococcal infection

Cryptococcosis is an opportunistic fungal infectious disease that often occurs in severely immunocompromised patients. Host defence against the causative microorganism is largely mediated by cellular immunity, and Th1 cytokines, such as IFN-gamma, play central roles in the host protective responses. IL-12 and IL-18 activate the synthesis of IFN-gamma by innate immune cells, including NK, NKT and gamma delta T cells and promote the differentiation of Th1-type acquired immune responses. Recently, NKT cells, which are involved in the recognition of glycolipid antigens, have attracted much attention based on their potent immunomodulating activities. Several studies have reported the role of this particular component of innate immune responses in tumor immunity and pathogenesis of autoimmune diseases. In this review, I outline the recent findings on the role of NKT cells in host defence against infectious microorganisms, with a special focus on our data emphasizing the importance of this subset of immunocytes in the development of acquired as well as early host protection against cryptococcal infection.     

冠状病毒感染细胞的受体结合机制

病毒感染宿主细胞是病毒致病的关键所在,病毒感染细胞需要与其受体相结合,介导其与细胞的膜融合反应。本综述了冠状病毒受体结合机制的研究进展,以及其在SARS病毒致病机制中可能的作用。     

Complete inhibition of tobamovirus multiplication by simultaneous mutations in two homologous host genes

The TOM1 gene of Arabidopsis thaliana encodes a putative multipass transmembrane protein which is necessary for the efficient multiplication of tobamoviruses. We have previously shown that mutations severely destructive to the TOM1 gene reduce tobamovirus multiplication to low levels but do not impair it completely. In this report, we subjected one of the tom1 mutants (tom1-1) to another round of mutagenesis and isolated a new mutant which did not permit a detectable level of tobamovirus multiplication. In addition to tom1-1, this mutant carried a mutation referred to as tom3-1. Positional cloning showed that TOM3 was one of two TOM1-like genes in Arabidopsis. Based on the similarity between the amino acid sequences of TOM1 and TOM3, together with the results of a Sos recruitment assay suggesting that both TOM1 and TOM3 bind tobamovirus-encoded replication proteins, we propose that TOM1 and TOM3 play parallel and essential roles in the replication of tobamoviruses.     

Formation of diethylstilbestrol-DNA adducts in human breast epithelial cells and inhibition by resveratrol

Extensive evidence exists that the reaction of estrogen metabolites with DNA produces depurinating adducts that, in turn, induce mutations and cellular transformation. While it is clear that these estrogen metabolites result in a neoplastic phenotype in vitro, further evidence supporting the link between estrogen-DNA adduct formation and its role in neoplasia induction in vivo would strengthen the evidence for a genotoxic mechanism. Diethylstilbestrol (DES), an estrogen analogue known to increase the risk of breast cancer in women exposed in utero, is hypothesized to induce neoplasia through a similar genotoxic mechanism. Cultured MCF-10F human breast epithelial cells were treated with DES at varying concentrations and for various times to determine whether the addition of DES to MCF-10F cells resulted in the formation of depurinating adducts. This is the first demonstration of the formation of DES-DNA adducts in human breast cells. A dose-dependent increase in DES-DNA adducts was observed. Demonstrating that treatment of MCF-10F cells with DES, a known human carcinogen, yields depurinating adducts provides further support for the involvement of these adducts in the induction of breast neoplasia. Previous studies have demonstrated the ability of antioxidants such as resveratrol to prevent the formation of estrogen-DNA adducts, thus preventing a key carcinogenic event. In this study, when MCF-10F cells were treated with a combination of resveratrol and DES, a dose-dependent reduction in the level of DES-DNA adducts was also observed.     

Growth inhibition of mammalian cells by synthetic and natural photosensitising agents

Amammalian cell line, J774, was susceptible to both synthetic and natural photosensitising agents after irradiation with long-wave ultraviolet light. Both UV-A light and psoralen did not affect cell growth individually; a reduction invisual confluency was achieved only when psoralen and UV-A light were used in combination. The maximum visual confluency decreased by 55% when 50 ppm psoralen was added to a growing culture and irradiated with UV light for 3 min. Decreasing the UV-A exposure times from 3min to 3 s did not greatly affect the maximum total visual confluence reached using different synthetic psoralen concentrations, but did affect the rate at which cell death occurred. The 3 min exposure time resulted in a rapid decrease in cell numbers in comparison to 3s exposure time. Synthetic psoralen was found to have an increasing photosensitising activity with increasing concentration using a logarithmic shift between 0.5 ppm and 50 ppm. A visual confluency of 45 % was achieved using concentrations of 50 ppm psoralen, and 70% visual confluency using 0.5 ppm. Natural mixtures of furanocoumarins containing psoralens, obtained from two separate parsley sources, were found to have greater efficacy at inhibiting the growth cycle of the cells when compared to the synthetic psoralen. This revised version was published online in August 2006 with corrections to the Cover Date.     

p53-dependent apoptosis induced by proteasome inhibition in mammary epithelial cells

We have examined the effects of inhibition of the 26S proteasome in a murine mammary cell line, KIM-2 cells using the peptide aldehyde inhibitor MG132. These studies have demonstrated a clear requirement for proteasome function in cell viability. Induction of apoptosis was observed following MG132 treatment in KIM-2 cells and this death was shown to be dependent on the cell actively traversing the cell cycle. KIM-2 cells were generated using a temperature sensitive T-antigen (Tag) and studies at the permissive temperature (33 degrees C) have shown that a Tag binding protein was essential for this apoptotic response. Studies in two additional cell lines, HC11, which is a mammary epithelial cell line carrying mutant p53 alleles and p53 null ES cells suggest that p53 is actively required for the apoptosis induced as a consequence of proteasome inhibition. These results suggest a pivotal role for the 26S proteasome degradation pathway in progression through the cell cycle in proliferating cells.     

Ultrastructure and possible processes involved in the invasion of host epithelial cells by Candida albicans in vaginal candidosis

Ultrastructural studies of Candida albicans in its invasive form obtained from lesions of patients with vaginal candidosis confirm that growth is intracellular. The invading hyphae show well defined organelles including a denticulate double-layered plasma membrane, nuclei, cristate mitochondria, endoplasmic reticulum and storage granules, especially when osmium tetroxide was used as the sole fixative for electron microscopy. The invasion of host epithelial cells is probably brought about by a combination of enzymatic, physical and mechanical processes.     

Establishment of infection by spleen necrosis virus: inhibition in stationary cells and the role of secondary infection

The relationship of two early events in the establishment of infection by avian retroviruses, the inhibition of viral DNA synthesis in stationary avian cells and the secondary infection which occurs after infection of replicating cells, was investigated. When neutralizing antibody to spleen necrosis virus was used to prevent secondary infection, the amount of unintegrated linear spleen necrosis virus DNA detected was much lower in infected stationary cells than in infected replicating cells. The amount of unintegrated linear spleen necrosis virus DNA in stationary cells was less than one copy per cell even at high multiplicities of infection. Viral DNA synthesis resumed after stimulation of the cells to replicate. The time of this viral DNA synthesis was closely correlated with renewed cellular DNA synthesis. In addition, blocking secondary infection of replicating cells prevented the rate of virus production from reaching the high levels usually associated with a normal productive infection by SNV. Virus production increased if secondary infection was allowed. However, this rise in virus production was not proportional to the amounts of viral DNA integrated after secondary infection.     

The host immune regulator factor H interacts via two contact sites with the PspC protein of Streptococcus pneumoniae and mediates adhesion to host epithelial cells

Pneumococcal surface protein C (PspC) of Streptococcus pneumoniae is a key virulence factor that mediates adhesion to host cells and immune evasion of the host complement. PspC binds the host immune and complement regulator factor H, which is composed of 20 short consensus repeats (SCR). This interaction contributes to pneumococcal virulence. In this study, we identified within the factor H protein two separate PspC binding regions, which were localized to SCR8-11 and SCR19-20, by using recombinant factor H deletion constructs for Western blotting assays and surface plasmon resonance studies. A detailed analysis of binding epitopes in these SCR by peptide spot arrays identified several linear binding regions within the sequences of SCR8-11 and SCR19-20. In addition, the factor H binding site was mapped within the pneumococcal PspC protein to a 121-aa-long stretch positioned in the N terminus (residues 38-158). Factor H attached to the surface of pneumococci via PspC significantly enhanced pneumococcal adherence to host epithelial and endothelial cells. This adhesion was specific and was blocked with a truncated N-terminal factor H-binding fragment of PspC. In conclusion, the acquisition of factor H by pneumococci via PspC occurs via two contact sites located in SCR8-11 and SCR19-20, and factor H attached to the surface of the pneumococcus promotes adhesion to both host epithelial and endothelial cells.     

Interfaces between microbes and membranes of host epithelial cells in hemipteran midguts

Certain families of plant-feeding insects in the order Hemiptera (infraorder Pentatomomorpha) have established symbiotic relationships with microbes that inhabit specific pouches (caeca) of their midgut epithelium. The placement of these caeca in a well-delineated region at the most posterior end of the midgut bordering the hindgut is conserved in these families; in situ the convoluted midgut is predictably folded so that this caecal region lies adjacent to the anterior-most region of the midgut. Depending on the hemipteran family, caeca vary in their number and configuration at a given anterior–posterior location. At the host-microbe interface, epithelial plasma membranes of midgut epithelial cells interact with nonself antigens of microbial surfaces. In the different hemipteran species examined, a continuum of interactions is observed between microbes and host membranes. Bacteria can exist as free living cells within the midgut lumen without contacting host membranes while other host cells physically interact extensively with microbial surfaces by extending numerous processes that interdigitate with microbes; and, in many instances, processes completely envelope the microbes. The host cells can embrace the foreign microbes, completely enveloping each with a single host membrane or sometimes enveloping each with the two additional host membranes of a phagosome.     

Lower respiratory tract infection induced by a genetically modified picornavirus in its natural murine host

Infections with the picornavirus, human rhinovirus (HRV), are a major cause of wheezing illnesses and asthma exacerbations. In developing a murine model of picornaviral airway infection, we noted the absence of murine rhinoviruses and that mice are not natural hosts for HRV. The picornavirus, mengovirus, induces lethal systemic infections in its natural murine hosts, but small genetic differences can profoundly affect picornaviral tropism and virulence. We demonstrate that inhalation of a genetically attenuated mengovirus, vMC(0), induces lower respiratory tract infections in mice. After intranasal vMC(0) inoculation, lung viral titers increased, peaking at 24 h postinoculation with viral shedding persisting for 5 days, whereas HRV-A01a lung viral titers decreased and were undetectable 24 h after intranasal inoculation. Inhalation of vMC(0), but not vehicle or UV-inactivated vMC(0), induced an acute respiratory illness, with body weight loss and lower airway inflammation, characterized by increased numbers of airway neutrophils and lymphocytes and elevated pulmonary expression of neutrophil chemoattractant CXCR2 ligands (CXCL1, CXCL2, CXCL5) and interleukin-17A. Mice inoculated with vMC(0), compared with those inoculated with vehicle or UV-inactivated vMC(0), exhibited increased pulmonary expression of interferon (IFN-α, IFN-β, IFN-λ), viral RNA sensors [toll-like receptor (TLR)3, TLR7, nucleotide-binding oligomerization domain containing 2 (NOD2)], and chemokines associated with HRV infection in humans (CXCL10, CCL2). Inhalation of vMC(0), but not vehicle or UV-inactivated vMC(0), was accompanied by increased airway fluid myeloperoxidase levels, an indicator of neutrophil activation, increased MUC5B gene expression, and lung edema, a sign of infection-related lung injury. Consistent with experimental HRV inoculations of nonallergic, nonasthmatic human subjects, there were no effects on airway hyperresponsiveness after inhalation of vMC(0) by healthy mice. This novel murine model of picornaviral airway infection and inflammation should be useful for defining mechanisms of HRV pathogenesis in humans.     

Quantitative proteomic analysis of host epithelial cells infected by Salmonella enterica serovar Typhimurium

Systems‐level analyses have the capability to offer new insight into host–pathogen interactions on the molecular level. Using Salmonella infection of host epithelial cells as a model system, we previously analyzed intracellular bacterial proteome as a window into pathogens’ adaptations to their host environment [Infect. Immun. 2015; J. Proteome Res. 2017]. Herein we extended our efforts to quantitatively examine protein expression of host cells during infection. In total, we identified more than 5000 proteins with 194 differentially regulated proteins upon bacterial infection. Notably, we found marked induction of host integrin signaling and glycolytic pathways. Intriguingly, up‐regulation of host glucose metabolism concurred with increased utilization of glycolysis by intracellular Salmonella during infection. In addition to immunoblotting assays, we also verified the up‐regulation of PARP1 in the host nucleus by selected reaction monitoring and immunofluorescence studies. Furthermore, we provide evidence that PARP1 elevation is likely specific to Salmonella infection and independent of one of the bacterial type III secretion systems. Our work demonstrates that unbiased high‐throughput proteomics can be used as a powerful approach to provide new perspectives on host–pathogen interactions.     

Virus infection of dendritic cells: portal for host invasion and host defense

Dendritic cells (DCs) act as a portal for virus invasion and as the most potent antigen-presenting cells in antiviral host defense. Human immunodeficiency virus (HIV)-1 has served as the paradigm for virus interaction with DCs. HIV-1 infection of DCs via its primary CD4 receptor and secondary chemokine receptors leads to full virus replication (cis infection), whereas binding to C-type lectin receptors results both in cis replication, as well as transfer and replication of virus in CD4(pos) T cells (trans infection). DCs respond to this invasion by processing viral proteins through MHC class I and II pathways and undergoing a maturation that enhances their presentation of antigen to T cells for induction of adaptive antiviral immunity. HIV-1 and other viruses have evolved mechanisms to subvert this immune function. Engineering of DCs with various forms of viral immunogens and co-treatment with cytokines and chemokines is being used as an immunotherapy for HIV-1 and other viral infections.     

Initiation of DNA replication in mammalian cells and its inhibition by reovirus infection

We have studied the initiation of DNA replication in mammalian cells in tissue culture, using DNA fiber autoradiography to analyze initiation events occurring during 10 or 30-minute [³H]thymidine labeling periods. The mean distance between initiation sites varies in cells from different mammalian species. In mouse L cells, functioning initiation sites are distributed in clusters. The modal interval between individual sites is 40 to 50 μm, and the sites do not appear to occur at regular intervals. Initiation events appear partially synchronized in autoradiograms from DNA fibers spread over any one microscopic field of the autoradiographic slide (0.16 mm²), suggesting that such events occur in bursts over topographically contiguous regions of DNA. In cells infected with reovirus, a cytocidal RNA virus that markedly inhibits overall DNA replication in infected L cells, the distance between initiation sites labeled during a ten-minute pulse is increased. This indicates that the frequency of initiation events over localized regions of DNA is reduced by reovirus infection.