Semyon A. Risin

Identification of mechanosensitive genes in osteoblasts by comparative microarray studies using the rotating wall vessel and the random positioning machine

Weightlessness or microgravity of spaceflight induces bone loss due in part to decreased bone formation by unknown mechanisms. Due to difficulty in performing experiments in space, several ground‐based simulators such as the Rotating Wall Vessel (RWV) and Random Positioning Machine (RPM) have become critical venues to continue studying space biology. However, these simulators have not been systematically compared to each other or to mechanical stimulating models. Here, we hypothesized that exposure to RWV inhibits differentiation and alters gene expression profiles of 2T3 cells, and a subset of these mechanosensitive genes behaves in a manner consistent to the RPM and opposite to the trends incurred by mechanical stimulation of mouse tibiae. Exposure of 2T3 preosteoblast cells to the RWV for 3 days inhibited alkaline phosphatase activity, a marker of differentiation, and downregulated 61 and upregulated 45 genes by more than twofold compared to static 1 g controls, as shown by microarray analysis. The microarray results were confirmed by real‐time PCR and/or Western blots for seven separate genes and proteins including osteomodulin, runx2, and osteoglycin. Comparison of the RWV data to the RPM microarray study that we previously published showed 14 mechanosensitive genes that changed in the same direction. Further comparison of the RWV and RPM results to microarray data from mechanically loaded mouse tibiae reported by an independent group revealed that three genes including osteoglycin were upregulated by the loading and downregulated by our simulators. These mechanosensitive genes may provide novel insights into understanding the mechanisms regulating bone formation and potential targets for countermeasures against decreased bone formation during space flight and in pathologies associated with lack of bone formation. J. Cell. Biochem. 101: 587–599, 2007.

Immunopathology of postprimary tuberculosis: increased T-regulatory cells and DEC-205-positive foamy macrophages in cavitary lesions.

Postprimary tuberculosis occurs in immunocompetent people infected with Mycobacterium tuberculosis. It is restricted to the lung and accounts for 80% of cases and nearly 100% of transmission. Little is known about the immunopathology of postprimary tuberculosis due to limited availability of specimens. Tissues from 30 autopsy cases of pulmonary tuberculosis were located. Sections of characteristic lesions of caseating granulomas, lipid pneumonia, and cavitary stages of postprimary disease were selected for immunohistochemical studies of macrophages, lymphocytes, endothelial cells, and mycobacterial antigens. A higher percentage of cells in lipid pneumonia (36.1%) and cavitary lesions (27.8%) were positive for the dendritic cell marker DEC-205, compared to granulomas (9.0%, P < .05). Cavities contained significantly more T-regulatory cells (14.8%) than found in lipid pneumonia (5.2%) or granulomas (4.8%). Distribution of the immune cell types may contribute to the inability of the immune system to eradicate tuberculosis.

Gene expression alterations in activated human T-cells induced by modeled microgravity.

Studies conducted in real Space and in ground‐based microgravity analog systems (MAS) have demonstrated changes in numerous lymphocyte functions. In this investigation we explored whether the observed functional changes in lymphocytes in MAS are associated with changes in gene expression. NASA‐developed Rotating Wall Vessel (RWV) bioreactor was utilized as a MAS. Activated T lymphocytes were obtained by adding 100 ng/ml of anti‐CD3 and 100 U/ml of IL‐2 in RPMI medium to blood donor mononuclear cells for 4 days. After that the cells were washed and additionally cultured for up to 2 weeks with media (RPMI, 10% FBS and 100 U/ml IL‐2) replacement every 3–4 days. Flow cytometry analysis had proven that activated T lymphocytes were the only cells remaining in culture by that time. They were split into two portions, cultured for additional 24 h in either static or simulated microgravity conditions, and used for RNA extraction. The gene expression was assessed by Affymetrix GeneChip® Human U133A array allowing screening for expression of 18,400 genes. About 4–8% of tested genes responded to MG by more than a 1.5‐fold change in expression; however, reproducible changes were observed only in 89 genes. Ten of these genes were upregulated and 79 were downregulated. These genes were categorized by associated pathways and viewed graphically through histogram analysis. Separate histograms of each pathway were then constructed representing individual gene expression fold changes. Possible functional consequences of the identified reproducible gene expression changes are discussed. J. Cell. Biochem. 99: 1187–1202, 2006.

Effect of Chinese Medicines Chan Su and Lu-shen-wan on Serum Digoxin Measurement by Digoxin Iii, a New Digoxin Immunoassay

Abstract: Chan Su and Lu-Shen-Wan are Chinese medicines that crossreact with digoxin immunoassays. Recently, Abbott Laboratories released a new digoxin immunoassay, Digoxin III. We studied potential interference of Chan Su and Lu-Shen-Wan with the Digoxin III assay by comparing results obtained by using Digoxin II and fluorescence polarization immunoassay, also manufactured by Abbott Laboratories. Aliquots of a drug-free serum pool were supplemented with aqueous extract of Chan Su or Lu-Shen-Wan and apparent digoxin concentrations were measured using all three digoxin assays. Significant crossreactivity of Chan Su and Lu-Shen-Wan was observed with the new Digoxin III assay. Moreover, when mice were fed with Chan Su or Lu-Shen-Wan, significant apparent digoxin concentrations were also observed in the sera of mice using the Digoxin III assay indicating that such interferences are also present in vivo. When serum pools prepared from patients receiving digoxin were further supplemented with Chan Su or Lu-Shen-Wan extract, falsely elevated digoxin values were observed with both Digoxin III and fluorescence polarization immunoassay, but digoxin values were falsely lowered using the Digoxin II assay. For example, when one aliquot of Digoxin Serum Pool 1 containing 0.94 ng/mL of digoxin was supplemented with 5.0 μg/mL of Chan Su extract, the digoxin concentration was falsely elevated to 6.60 ng/mL as measured by the Digoxin III assay and 6.99 as measured by the fluorescence polarization immunoassay assay. In contrast, the observed digoxin value was falsely lowered to 0.72 ng/mL using the Digoxin II assay. Interference of Chan Su and Lu-Shen-Wan in the Digoxin III assay cannot be eliminated by monitoring free digoxin concentrations. Digibind neutralizes digoxin-like immunoreactive components of Chan Su and such effect can be monitored by measuring apparent free digoxin concentrations using the Digoxin III assay. We conclude the both Chan Su and Lu-Shen-Wan significantly interfere with serum digoxin measurements by the new Digoxin III assay.

Interaction of White and Pink Grapefruit Juice with Acetaminophen (Paracetamol) In Vivo in Mice

Grapefruit juice increases bioavailability of a number of drugs because of inhibition of the P-glycoprotein pump and inhibition of intestinal cytochrome P450 3A4 enzyme. However, interaction between acetaminophen (also known as paracetamol in many parts of the world) and grapefruit juice has never been reported. The interaction of grapefruit juice with acetaminophen was examined in an in vivo mouse model. BALB/c mice were fed 200 microL of white grapefruit juice or pink grapefruit juice by oral gavage (three mice in each group) followed by oral delivery of 10, 50, or 100 mg/kg acetaminophen 1 hour later. Blood was withdrawn from the retro-orbital venous plexus at 1 hour and 2 hours after feeding with acetaminophen. The concentrations of acetaminophen in sera of mice were determined by fluorescence polarization immunoassay. White grapefruit juice increased concentrations of acetaminophen in mice both 1 hour and 2 hours after feeding compared to controls. In contrast, pink grapefruit juice increased acetaminophen concentrations 2 hours after feeding compared to controls. Because acetaminophen is almost completely absorbed these effects seems to be related to increased elimination half-life of acetaminophen because of interaction with grapefruit juice.

Changes in expression of genes involved in apoptosis in activated human T-cells in response to modeled microgravity

Space flights result in remarkable effects on various physiological systems, including a decline in cellular immune functions. Previous studies have shown that exposure to microgravity, both true and modeled, can cause significant changes in numerous lymphocyte functions. The purpose of this study was to search for microgravity-sensitive genes, and specifically for apoptotic genes influenced by the microgravity environment and other genes related to immune response. The experiments were performed on anti-CD3 and IL-2 activated human T cells. To model microgravity conditions we have utilized the NASA rotating wall vessel bioreactor. Control lymphocytes were cultured in static 1g conditions. To assess gene expression we used DNA microarray chip technology. We had shown that multiple genes (approximately 3–8% of tested genes) respond to microgravity conditions by 1.5 and more fold change in expression. There is a significant variability in the response. However, a certain reproducible pattern in gene response could be identified. Among the genes showing reproducible changes in expression in modeled microgravity, several genes involved in apoptosis as well as in immune response were identified. These are IL-7 receptor, Granzyme B, Beta-3-endonexin, Apo2 ligand and STAT1. Possible functional consequences of these changes are discussed.