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71.
72.
Duchenne Muscular Dystrophy (DMD) is caused by mutations in the DMD gene resulting in an absence of dystrophin in neurons and muscle. Respiratory failure is the most common cause of mortality and previous studies have largely concentrated on diaphragmatic muscle necrosis and respiratory failure component. Here, we investigated the integrity of respiratory control mechanisms in the mdx mouse model of DMD. Whole body plethysmograph in parallel with phrenic nerve activity recordings revealed a lower respiratory rate and minute ventilation during normoxia and a blunting of the hypoxic ventilatory reflex in response to mild levels of hypoxia together with a poor performance on a hypoxic stress test in mdx mice. Arterial blood gas analysis revealed low PaO2 and pH and high PaCO2 in mdx mice. To investigate chemosensory respiratory drive, we analyzed the carotid body by molecular and functional means. Dystrophin mRNA and protein was expressed in normal mice carotid bodies however, they are absent in mdx mice. Functional analysis revealed abnormalities in Dejours test and the early component of the hypercapnic ventilatory reflex in mdx mice. Together, these results demonstrate a malfunction in the peripheral chemosensory drive that would be predicted to contribute to the respiratory failure in mdx mice. These data suggest that investigating and monitoring peripheral chemosensory drive function may be useful for improving the management of DMD patients with respiratory failure. 相似文献
73.
During its life cycle Mycobacterium tuberculosis (MTB) must face a variety of environmental and endogenous physical and chemical stresses that could produce genotoxic damage. However, MTB possesses efficient systems to counteract the harmful effects of DNA‐damaging assaults. The nucleotide excision repair (NER) is a highly conserved multi‐enzymatic cascade that is initiated by the concerted action of three core proteins, that is UvrA, UvrB, and UvrC. Although the functional roles of these enzymes are well characterized, the intra‐pathway coordination of the NER components and the dynamics of their association is still a matter of debate. In the presented study, we analyzed the hydrodynamic properties and the oligomeric state of the MTB UvrB protein (MtUvrB) that we expressed and purified to homogeneity in a tag‐free form. Our results show that, differently to what has been previously observed for the His‐tagged version of the protein, MtUvrB forms dimers in solution, which are characterized by an elongated shape, as determined by small‐angle X‐ray scattering analysis. Moreover, to gain insights into the mycobacterial UvrA/UvrB lesion sensing/tracking complex we adopted a size‐exclusion chromatography‐based approach, revealing that the two proteins interact in the absence of ligands, leading to the assembling of A2B2 hetero‐tetramers in solution. Surface plasmon resonance analysis showed that the dissociation constant of the MtUvrA/MtUvrB complex falls in the low micromolar range that could represent the basis for a fine modulation of the complex architecture accompanying the multi‐step DNA repair activity of mycobacterial NER. 相似文献
74.
S. K. Lahiri 《Cell proliferation》1973,6(5):509-514
A short-term in vitro method was employed to study the Mitomycin-C sensitivity of normal mouse bone marrow CFU without triggering the G0 -phase cells into the proliferative cycle. Comparison was made of the toxicities of the drug against cells in different phases of the cell cycle including G0 . Mitomycin-c killed CFU both in and out of the S-phase. No significant difference could be found between its toxicities against normal and proliferating CFU; along the exponential part of the survival curve 1·6 μg/ml concentration of the drug reduced survival to 10%. Although in the normal bone marrow only a few CFU are in the S-phase and are killed by the agent, presence of the sensitive G0 cells produce a significant amount of non-S-phase mortality. Among the proliferating CFU population the non-S-phase lethality is less due to the absence of G0 cells. About 75% of the S-phase cells are killed after incubation with 1 μg/ml drug; outside the S-phase, the lethality is about 40–50%. The studies indicate that the G0 cells which are situated near the G1 -S boundary are almost as sensitive to the drug as other non-S-phase cells like G1 cells. The clinical significance of the findings is discussed. 相似文献
75.
A model calculation of the hemopoiesis of the mouse based on known hematologic data leads to the conclusion that approximately 3% of all nucleated bone marrow cells are stem cells (pluripotent plus committed stem cells). By a new 125IUdR labeling technique on radiation chimeras, a relative number of 2%-7% stem cells was determined. In previous studies with test systems for stem cells using colony formation in vivo or in vitro, a relative number of stem cells of at least one order of magnitude lower has been estimated. In this study the stem cells are found to have a turnover time of about 4.3 days in the donor mice. This turnover time remained unchanged even after transfusion of marrow cells into lethally irradiated recipient mice. Radiosensitivity determinations yielded a D0 of 80 rad for stem cells in S-phase and D0 of 185 rad for stem cells distributed throughout the entire cell cycle. The respective extrapolation numbers were 1.23 and 1.14. Experiments using an 3H-TdR suicide technique revealed different cell cycle parameters for bone marrow stem cells seeding to the spleens and to the femurs of lethally irradiated recipients, primarily a shortening of S-phase in cells seeding to femurs. The method described here provides a new approach to hematologic stem cell research. 相似文献
76.
Elizabeth Mahapatra Dishari Dasgupta Navodipa Bhattacharya Suvrotoa Mitra Debakana Banerjee Soumita Goswami Nabanita Ghosh Avijit Dey Sudipta Chakraborty 《Tissue & cell》2017,49(2):239-248
Complete or partial depletion of resource in a freshwater habitat is a common phenomenon. As a consequence, aquatic fauna including bivalve molluscs may be exposed to dietary stress on a seasonal basis. Haemocyte based innate immune profile of the freshwater mollusc Lamellidens marginalis (Bivalvia: Eulamellibranchiata) was evaluated under starvation induced stress for a maximum period of 32 days in a controlled laboratory condition. During starvation, the bivalve haemocytes maintained a homeostasis in phagocytic efficacy and nitric oxide generation ability with respect to the control. The mollusc maintained a significantly high protein content in its haemolymph and tissues under the nutritional stress with respect to the control. The dietary stress had no significant impact on the activity of digestive tissue derived α-amylase till sixteenth day but by 32 days the enzyme activity went down significantly. The histopathological profile revealed that the bivalve was adapted to maintain a steady immune profile by incurring degeneration of its own tissue structure. The total haemocyte count surged significantly till 16 days but differed insignificantly with respect to the control at 32 days implying probable haematopoietic exhaustion. The study reflects the instinctive urge of the bivalve to maintain immune physiology at heavy metabolic cost under nutrient limited condition. 相似文献
77.
78.
Arginine is a common substrate for both inducible nitric oxide synthase (iNOS) and arginase. The competition between iNOS and arginase for arginine contributes to the outcome of several parasitic and bacterial infections. Salmonella infection in macrophage cell line RAW264.7 induces iNOS. Because the availability of l-arginine is a major determinant for nitric oxide (NO) synthesis, we hypothesize that in the Salmonella infected macrophages NO production may be regulated by arginase. Here we report for the first time that Salmonella up-regulates arginase II but not arginase I isoform in RAW264.7 macrophages. Blocking arginase increases the substrate l-arginine availability to iNOS for production of more nitric oxide and perhaps peroxynitrite molecules in the infected cells allowing better killing of virulent Salmonella in a NO dependent manner. RAW264.7 macrophages treated with iNOS inhibitor Aminoguanidine reverts the attenuation in arginase-blocked condition. Further, the NO block created by Salmonella was removed by increasing concentration of l-arginine. The whole-mice system arginase I, although constitutive, is much more abundant than the inducible arginase II isoform. Inhibition of arginase activity in mice during the course of Salmonella infection reduces the bacterial burden and delays the disease outcome in a NO dependent manner. 相似文献
79.
80.
Sudipta Chatterjee Dae S. Lee Min W. Lee Seung H. Woo 《Bioresource technology》2009,100(11):2803-2809
The adsorption of congo red (CR) onto chitosan (CS) beads impregnated by a cationic surfactant (CTAB, cetyl trimethyl ammonium bromide) was investigated. Chitosan beads impregnated at a ratio of 1/20 of CTAB to CS (0.05% of CTAB and 1% of CS) increased the CR adsorption capacity by 2.2 times from 162.3 mg/g (0% CTAB) to 352.5 mg/g (0.05% CTAB). The CR adsorption decreased with an increase in pH of the CR solution from 4.0 to 9.0. The Sips isotherm model showed a good fit with the equilibrium experimental data and the values of the heterogeneity factor (n) indicated heterogeneous adsorption of CR onto CS/CTAB beads, as well as CS beads. The kinetic data showed better fit to the pseudo second-order rate model than to the pseudo first-order rate model. The impregnation of CS beads by cationic surfactants showed the highest adsorption capacities of CR compared to any other adsorbents and would be a good method to increase adsorption efficiency for the removal of anionic dyes in a wastewater treatment process. 相似文献