Cellular and humoral immunity factors in salmonellosis and food toxinfections

The present work deals with the state of cell-mediated and humoral immunity in 129 patients with salmonellosis and 185 patients with alimentary toxicoinfections, determined from the data obtained in the leukocyte migration inhibition (LMI) test and the passive hemagglutination (PHA) test with cysteine, at different stages of the disease and depending on the severity of the infectious process. The results of these investigations showed that in adult salmonellosis patients the specific reaction of T- and B-lymphocytes developed as secondary immune response. The results of the LMI test proved to be unrelated to the severity of the infectious process, while antibody formation was found to be most intensive in the acute course of the disease. The investigations also revealed that the activity of reaction in the LMI est did not depend on the presence of humoral antibodies. In the patients with alimentary toxicoinfections changes in the results of the LMI test and the PHA test with cysteine showed the same regularities as in the salmonellosis patients. This permitted the authors to suggest that diseases of Salmonella etiology prevailed in the former group.     

Extrinsic factors as multifunctional regulators of retinal ganglion cell morphogenesis

Neurons acquire a unique cell-type dependent morphology during development that is critical for their function in a neural circuit. The process involves a neuron sending out an axon that grows in a directed fashion to its target, and the elaboration of multiple, branched dendrites. The ultimate morphology of the neuron is sculpted by factors in the environment that act directly or indirectly to influence the behavior of the growing axon and dendrites. The output neuron of the retina, the retinal ganglion cell (RGC), has served as a useful model for the identification of molecular signals that control neuronal morphogenesis, because the entire development of the neuron, from the initiation of neurites to the establishment of synapses, is accessible for experimental manipulation and visualization. In this review we discuss data which argue that the visual system uses a limited number of signals to control RGC morphogenesis, with single molecules being reused multiple times to control distinct events in axon and dendrite outgrowth.     

Cellular and humoral immunity and nonspecific resistance factors in chronic opisthorchiasis patients during dispensary observation

In 116 patients with opisthorchiasis running a cholecystocholangitic variant of the disease course, the characteristics of nonspecific resistance (complement, lysozyme, properdin), cell-mediated and humoral immunity (T- and B-lymphocytes, T gamma-, T mu-, O-, D-, A-cells and auto-rosette-forming cells, IgG, IgA and IgM) have been studied. Essential changes in these characteristics before and after treatment, as well as at the remote periods of dispensary observation, have been established.     

Cellular and humoral immunity following Snow Mountain virus challenge

Little is known about the immune response to noroviruses. To elucidate the immunobiology of norovirus infection in humans, 15 volunteers were challenged with Snow Mountain virus (SMV), a genogroup 2 norovirus. We assessed the cellular and humoral immune response and infection by analyzing stool, serum, saliva, and peripheral blood mononuclear cell (PBMC) responses pre- and postchallenge. In contrast to Norwalk virus (NV), SMV infection was not dependent upon blood group secretor status. Nine of 15 volunteers were infected and showed a >/=4-fold increase over the prechallenge anti-SMV serum immunoglobulin G (IgG) titer, mostly subclass IgG1. Although serum IgG elicited by SMV infection was cross-reactive with Hawaii virus (HV), another genogroup 2 norovirus, salivary IgA was less cross-reactive. Neither SMV-elicited serum IgG nor salivary IgA cross-reacted with NV, a genogroup 1 norovirus. Significant increases in serum gamma interferon (IFN-gamma) and IL-2, but not IL-6 or IL-10, were noted on day 2 postchallenge. For the majority of volunteers, both infected and uninfected, PBMCs stimulated with norovirus virus-like particles secreted IFN-gamma and other Th1 cytokines, suggesting previous norovirus exposure in most volunteers. Like the IgG antibodies, the SMV-activated T cells were cross-reactive with HV but not NV. IFN-gamma production was dependent upon CD4(+) cells, consistent with a predominant, but not exclusive, Th1 response. To our knowledge, this is the first report characterizing T-cell and cytokine responses following live norovirus challenge.     

Cellular and humoral immunity against vaccinia virus infection of mice

Despite the widespread use of vaccinia virus (VV) as a vector for other Ags and as the smallpox vaccine, there is little information available about the protective components of the immune response following VV infection. In this study, protection against wild-type VV was evaluated in mice with respect to the relative contributions of CD8(+) T cells vs that of CD4(+) T cells and Ab. C57BL/6 mice primed with the Western Reserve strain of VV mount significant IgM and IgG Ab responses, specific cytotoxic T cell responses, IFN-gamma responses in CD4(+) and CD8(+) T cells, and effectively clear the virus. This protection was abrogated by in vivo depletion of CD4(+) T cells or B cells in IgH(-/-) mice, but was not sensitive to CD8(+) T cell depletion alone. However, a role for CD8(+) T cells in primary protection was demonstrated in MHC class II(-/-) mice, where depleting CD8(+) T cells lead to increase severity of disease. Unlike control MHC class II(-/-) mice, the group depleted of CD8(+) T cells developed skin lesions on the tail and feet and had adrenal necrosis. Adoptive transfer experiments also show CD8(+) T cells can mediate protective memory. These results collectively show that both CD4(+) and CD8(+) T cell-mediated immunity can contribute to protection against VV infection. However, CD4(+) T cell-dependent anti-virus Ab production plays a more important role in clearing virus following acute infection, while in the absence of Ab, CD8(+) T cells can contribute to protection against disease.     

Cellular immunity factors in dysentery]

Cellular immune response was studied in 89 adult patients suffering from various clinical forms of acute dysentery, with the use of the lymphocyte blast-cell transformation reaction under the action of a specific antigen (dysenterin) and a nonspecific mitogen (phitohemagglutinin). Functional value of T-lymphocytes proved to be retained in patients with acute dysentery; there was also lymphocyte stimulation by a specific antigen in patients with moderately severe and severe forms of dysentery during the first week of the disease. Specificity of blast-cell transformation of sensitized lymphocytes under the action of dysenterin was shown. Patients with a high percentage of the lymphocyte blast forms displayed a more rapid positive progress of the main clinical indices at the height of the disease than analogous patients with a low blast percentage in the blood. The expediency of using the blast-cell transformation reaction for differential diagnosis and prognosis of moderately severe and severe forms of acute dysentery is discussed.     

Cellular immunity factors in salmonellosis and food toxinfections

A complex immunological examination of 68 salmonellosis patients and 227 patients with alimentary toxinfections of unknown etiology has been made in the process of their treatment by rehydration therapy. At the acute period of the disease, irrespective of its nosologic form, cellular immunity has been suppressed. Cell-mediated immunity factors have been shown to depend on the severity of the disease.     

Serotonin and serotonin-like substances as regulators of early embryogenesis and morphogenesis

The problem of pre-nervous neurotransmitter systems arose from studies carried out on different groups of invertebrates and vertebrates in the late 1950s to early 1960s. These investigations were motivated by an hypothesis formulated by K. S. Koshtoyants concerning the similarity between pre-nervous control processes and neuronal functions. Here, we review new data related to the embryogenetic and morphogenetic functions of serotonin (5-HT) and 5-HT-like substances in early embryos of sea urchins, mouse, and other species. Accumulating evidence across animal phyla indicates that 5-HT, together with other classical neurotransmitters, regulates basic developmental processes, including cell proliferation, migration, differentiation, and morphogenesis. Future investigations of cellular and molecular mechanisms underlying phylogenetically old functions of neurotransmitters could provide new insights into the evolutionary emergence of the vertebrate nervous system.     

Cellular and humoral immunity to hepatitis-B surface antigen in active chronic hepatitis.

The hepatitis-B surface antigen (HBsAG) may be persistently present in the serum in a few cases of active chronic hepatitis but the cause of the disease in most patients is unknown. In a study of 39 HBsAg-negative cases cell-mediated immunity to HBsAg was observed in 24 (62%), suggesting a high frequency of previous infection with the hepatitis-B virus. Hepatitis-B surface antibody was detectable by radioimmunoassay in six patients, in all of whom complexes of HBsAg were present in the serum on electron microscopy. Out of 12 patients with HBsAg-positive active chronic hepatitis who were also studied eight, including all those untreated at the time, showed a cellular response to the antigen. Evidence of sensitization to a liver-specific cell surface lipoprotein was found with similar frequency in the two groups. These results are consistent with the hypothesis that hepatitis-B virus infection is important in initiating the disease in many cases of active chronic hepatitis and that sensitization to the liver cell membrane antigen is the autoimmune process responsible for the perpetuation of the liver injury.     

Relationship of eicosanoids to cellular and humoral immunity factors in meningococcal infection

The dynamics of the content of thromboxane B2, 6-keto-prostaglandin F1 alpha, T- and B-lymphocytes and titers of antibodies to group polysaccharides of meningococci, groups A, B and C, have been studied in 44 patients with generalized forms of meningococcal infection. As shown in this study, in patients with the clinical course of moderate severity a decrease in the number of T-lymphocytes in the first days of infection correlates with a decrease in the concentration of thromboxane B2. In some cases the concentration of thromboxane B2 and 6-keto-prostaglandin F1 alpha has been found to correlate with the titers of antibodies to group polysaccharide of group A meningococci. The severe course of meningococcal infection is characterized by the absence of correlation between eicosanoids and the immunity factors under study.     

Cellular lipid binding proteins as facilitators and regulators of lipid metabolism

Evidence is accumulating that cellular lipid binding proteins are playing central roles in cellular lipid uptake and metabolism. Membrane-associated fatty acid-binding proteins putatively function in protein-mediated transmembrane transport of fatty acids, likely coexisting with passive diffusional uptake. The intracellular trafficking of fatty acids, bile acids, and other lipid ligands, may involve their interaction with specific membrane or protein targets, which are unique properties of some but not of all cytoplasmic lipid binding proteins. Recent studies indicate that these proteins not only facilitate but also regulate cellular lipid utilization. For instance, muscle fatty acid uptake is subject to short-term regulation by translocation of fatty acid translocase (FAT)/CD36 from intracellular storage sites to the plasma membrane, and liver-type cytoplasmic fatty acid-binding protein (L-FABP_c) functions in long-term, ligand-induced regulation of gene expression by directly interacting with nuclear receptors. Therefore, the properties of the lipid-protein complex, rather than those of the lipid ligand itself, determine the fate of the ligand in the cell. Finally, there are an increasing number of reports that deficiencies or altered functioning of both membrane-associated and cytoplasmic lipid binding proteins are associated with disease states, such as obesity, diabetes and atherosclerosis. In conclusion, because of their central role in the regulation of lipid metabolism, cellular lipid binding proteins are promising targets for the treatment of diseases resulting from or characterised by disturbances in lipid metabolism, such as atherosclerosis, hyperlipidemia, and insulin resistance.