Murine Model of CD40-activation of B cells

Research on B cells has shown that CD40 activation improves their antigen presentation capacity. When stimulated with interleukin-4 and CD40 ligand (CD40L), human B cells can be expanded without difficulties from small amounts of peripheral blood within 14 days to very large amounts of highly-pure CD40-B cells (>10⁹ cells per patient) from healthy donors as well as cancer patients^1-4. CD40-B cells express important lymph node homing molecules and can attract T cells in vitro⁵. Furthermore they efficiently take up, process and present antigens to T cells^6,7. CD40-B cells were shown to not only prime naíve, but also expand memory T cells^8,9. Therefore CD40-activated B cells (CD40-B cells) have been studied as an alternative source of immuno-stimulatory antigen-presenting cells (APC) for cell-based immunotherapy1,5,10. In order to further study whether CD40-B cells induce effective T cell responses in vivo and to study the underlying mechanism we established a cell culture system for the generation of murine CD40-activated B cells. Using splenocytes or purified B cells from C57BL/6 mice for CD40-activation, optimal conditions were identified as follows: Starting from splenocytes of C57BL/6 mice (haplotype H-2b) lymphocytes are purified by density gradient centrifugation and co-cultured with HeLa cells expressing recombinant murine CD40 ligand (tmuCD40L HeLa)¹¹. Cells are recultured every 3-4 days and key components such as CD40L, interleukin-4, -Mercaptoethanol and cyclosporin A are replenished. In this protocol we demonstrate how to obtain fully activated murine CD40-B cells (mCD40B) with similar APC-phenotype to human CD40-B cells (Fig 1a,b). CD40-stimulation leads to a rapid outgrowth and expansion of highly pure (>90%) CD19+ B cells within 14 days of cell culture (Fig 1c,d). To avoid contamination with non-transfected cells, expression of the murine CD40 ligand on the transfectants has to be controlled regularly (Fig 2). Murine CD40-activated B cells can be used to study B-cell activation and differentiation as well as to investigate their potential to function as APC in vitro and in vivo. Moreover, they represent a promising tool for establishing therapeutic or preventive vaccination against tumors and will help to answer questions regarding safety and immunogenicity of this approach¹².Download video file.^{(141M, mp4)}     

Hormones and hormone-like substances of microorganisms: A review

Data from the literature on the ability of microorganisms to form plant hormones have been reviewed. The substances covered include abscisic acid, ethylene and other compounds with phytohormone-like properties (brassinosteroids, oligosaccharines) and analogues of animal neurotransmitters (biogenic amines). Pathways whereby the substances are metabolized and their effects on the development and activity (physiological and biochemical) of the microorganisms are considered. The role of phytohormones and hormone-like substances in the formation of association (microorganism-host) interactions are analyzed. The potential utilities of microorganisms producing hormones and hormone-like substances are discussed.     

Microbial producers of plant growth stimulators and their practical use: A review

The ability of pro-and eukaryotic microorganisms to synthesize growth-stimulating phytohormones is reviewed, with emphasis on the pathways of biosynthesis of these compounds and their effects on the physiological and biochemical properties of the producers. Phytohormones are viewed as specific mediators in interactions between various organisms inhabiting the same ecological niche, the biological role of which is not limited to processes taking place in plants. In addition to setting forth the theoretical aspects of this problem, the review underscores the need to utilize such producer microorganisms in plant cultivation and biotechnology     

Isolation and properties of malate dehydrogenase from meso- and thermophilic bacteria

A scheme of purification of malate dehydrogenase from Macromonas bipunctata strain D-405 and Vulcanithermus medioatlanticus DSM 14978T was developed. This scheme was used to obtain electrophoretically homogeneous enzyme preparations of the mesophilic bacterium M. bipunctata (specific activity, 26.9 +/- 0.8 U/mg protein; yield, 10.9%) and the thermophilic bacterium V. medioatlanticus (specific activity, 5.0 +/- 0.2 U/mg protein; yield, 19.2%). Using these high-purity enzymatic preparations, the physicochemical and regulatory properties of malate dehydrogenase were studied and the differences in kinetic characteristics and thermal stability of the preparations were determined.     

Hormones and hormone-like substances of microorganisms: a review

Data from the literature on the ability of microorganisms to form plant hormones have been reviewed. The substances covered include abscisic acid, ethylene and other compounds with phytohormone-like properties (brassinosteroids, oligosaccharines) and analogues of animal neurotransmitters (biogenic amines). Pathways whereby the substances are metabolized and their effects on the development and activity (physiological and biochemical) of the microorganisms are considered. The role of phytohormones and hormone-like substances in the formation of association (microorganism-host) interactions are analyzed. The potential utilities of microorganisms producing hormones and hormone-like substances are discussed.     

Analysis of germ cell populations in ejaculate of men infected with herpes simplex virus

Cytological and molecular genetics methods were used to study sperm from patients with sperm infected with herpes simplex virus (HSV) as indicated by virological and immunocytochemical tests. The following methods were used: (1) sperm analysis to evaluate the morphology and functional properties of sperm; (2) fluorescence in situ hybridization (FISH) with DNA probes specific for chromosomes 1, X, and Y to evaluate nondisjunction frequencies of these chromosomes in sperm; and (3) quantitative analysis of immature germ cells in the ejaculate to identify spermatogenic abnormalities. The total sperm count and the count of sperm with normal motility proved similar to the norm. FISH analysis demonstrated no difference in the nondisjunction frequency of chromosomes 1, X, and Y between infertile patients with HSV-infected sperm and fertile donors. Comparative quantitative analysis of immature germ cells from the ejaculate has demonstrated a significant and considerable (threefold) increase in the number of spermatocytes I in pachytene and diplotene, at the prepachytene stages of prophase I (preleptotene, leptotene, and zygotene) in HSV patients compared to normal donors. At the same time, HSV patients demonstrated a significant decrease in the number of spermatocytes I, in pachytene and diplotene, decrease in the proportion of spermatocytes II and spermatids, and a twofold increase in the number of unidentifiable immature germ cells. The data obtained indicate a partial spermatogenic arrest at the early stages of meiotic prophase I in HSV patients, which prompts further research into the cellular mechanisms of abnormal spermatogenesis after viral infection in humans.     

Regulation of carbon flows in the tricarboxylic acid cycle-glyoxylate bypass system in Rhodopseudomonas palustris under different growth conditions

The functional roles of the malate dehydrogenase (MDH) tetrameric and dimeric isoforms in the metabolism of the purple nonsulfur phototrophic bacterium Rhodopseudomonas palustris, strain f-8pt, was studied with the use of specific inhibitors. It was shown that the enzyme tetrameric form allows the functioning of the glyoxylate cycle and the dimeric form provides for the operation of the tricarboxylic acid cycle.