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Abdul Aziz Ali Dhrubajyoti Gogoi Amrita K. Chaliha Alak K. Buragohain Priyanka Trivedi Prakash J. Saikia Praveen S. Gehlot Arvind Kumar Vinita Chaturvedi Diganta Sarma 《Bioorganic & medicinal chemistry letters》2017,27(16):3698-3703
A library of seventeen novel 1,2,3-triazole derivatives were efficiently synthesized in excellent yields by the popular ‘click chemistry’ approach and evaluated in vitro for their anti-tubercular activity against Mycobacterium tuberculosis H37Ra (ATCC 25177 strain). Among the series, six compounds exhibited significant activity with minimum inhibitory concentration (MIC) values ranging from 3.12 to 0.78 μg/mL and along with no significant cytotoxicity against MBMDMQs (mouse bone marrow derived macrophages). Molecular docking of the target compounds into the active site of DprE1 (Decaprenylphosphoryl-β-d-ribose-2′-epimerase) enzyme revealed noteworthy information on the plausible binding interactions. 相似文献
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Parai MK Panda G Chaturvedi V Manju YK Sinha S 《Bioorganic & medicinal chemistry letters》2008,18(1):289-292
A new series of thiophene containing triarylmethane derivatives were synthesized from the Friedel-Crafts alkylation of diarylcarbinols followed by incorporation of amino alkyl chains. These were evaluated against Mycobacterium tuberculosis H37R(v) and showed the activity in the range of 3.12-12.5 microg/mL in vitro. 相似文献
97.
Ghosh S Tiwari P Pandey S Misra AK Chaturvedi V Gaikwad A Bhatnagar S Sinha S 《Bioorganic & medicinal chemistry letters》2008,18(14):4002-4005
A series of glycosyl thioacetamide and glycosyl sulfonyl acetamide derivatives have been prepared following a convenient reaction protocol and evaluated for their antitubercular activity against Mycobacterium tuberculosis H37Rv. Amongst 32 compounds evaluated 3 compounds were effective in inhibiting mycobacterial growth at MIC of 6.25 μg/mL, 6 compounds at MIC of 3.125 μg/mL and 1 compound at MIC of 1.56 μg/mL. All active compounds were found nontoxic in Vero cell lines and mice bone marrow macrophages. 相似文献
98.
Dharmendra Sharma Chandra Mohini Chaturvedi 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》2009,179(7):811-819
The role of thyroid hormones in the regulation of adrenal function during stress has been documented in mammals, but only
limited reports are available in avian species. The present study was undertaken to analyze the effect of hyper- or hypothyroidism
on the adrenal activity under control (hydrated) and osmotically stressed (water deprived, WD) conditions, with special emphasis
on the expression of arginine vasotocin receptor VT2 (VT2R) in pituitary corticotrophs. Chickens were made hyper- or hypothyroidic
by injecting thyroxine (T4) and 2-thiouracil (TU), respectively for 14 days. After 10 days of injections, one sub-group of
both, T4- or TU-treated chickens were subjected to osmotic stress by water deprivation. Hyperthyroidism stimulated adrenal
steroidogenic activity compared to euthyroid control birds, but no change was observed in the expression of VT2R. On the other
hand, TU-induced hypothyroidism however showed no effect on adrenal gland, but a significant increase in the expression of
VT2R was observed. Neither hyper- nor hypothyroidism altered pro-opiomelanocortin (POMC) mRNA levels. Following osmotic stress,
no effect was observed either on the adrenal gland or on the VT2R expression in hyperthyroidic birds, but in hypothyroidic
birds, osmotic stress stimulated adrenal steroidogenic activity and decreased VT2R expression in comparison to its respective
controls (T4 or TU). Expression of POMC mRNA was again unaltered following osmotic stress. Although exact mechanism is not
clear, the data indicate that high plasma T4 level stimulates adrenal activity and may also modulate function of the pituitary–adrenal
axis during dehydration. 相似文献
99.
N. Kumar A.K. Garg R.S. Dass V.K. Chaturvedi V. Mudgal V.P. Varshney 《Animal Feed Science and Technology》2009,153(1-2):77-87
To investigate and compare the effect of inorganic and organic Se supplementation, 18 male lambs (24.68 ± 2.89 kg mean body weight, about 8–9 months of age) were divided into three groups of six animals in each, following randomized block design. While animals in the control group (Gr I) were fed a standard TMR containing 195 g/kg crushed maize grain, 175.5 g/kg soybean meal, 260 g/kg wheat bran, 13 g/kg mineral mixture (without Se), 6.5 g/kg common salt and 350 g/kg wheat straw, animals in Gr II and Gr III were additionally supplemented with 0.15 mg Se/kg of diet through sodium selenite (inorganic Se) and Jevsel-101 (organic Se), respectively. Experimental feeding was done for a period of 90 days. To assess the humoral immune response, all the lambs were intramuscularly inoculated with a single dose (2 mL) of Haemorrhagic septicaemia oil adjuvant vaccine on day 0; and blood samples were collected on day 0, 30, 60 and 90. Supplementation of Se had no effect on serum total cholesterol, total protein, albumin, globulin, albumin:globulin ratio, T3, T4, T4:T3 ratio; serum Ca and P levels and SGOT and SGPT activity. However, there was a significant increase in the serum Se level, RBC GSH-Px activity and humoral immune response in both the Se supplemented groups as compared to control group. Average daily gain (g) was highest (110) in Gr III, followed by Gr II (98.2) and lowest in Gr I (89.1). Thus, supplementation of organic as well as inorganic Se was found to improve the growth rate, humoral immune response and antioxidant status of the lambs; and between two sources, organic Se was more effective than inorganic Se. 相似文献
100.
Deepti Chaturvedi Michael S. Cohen Jack Taunton Tarun B. Patel 《The Journal of biological chemistry》2009,284(35):23670-23681
Previously, we showed that interactions between p90RSK1 (RSK1) and the subunits of type I protein kinase A (PKA) regulate the activity of PKA and cellular distribution of active RSK1 (Chaturvedi, D., Poppleton, H. M., Stringfield, T., Barbier, A., and Patel, T. B. (2006) Mol. Cell Biol. 26, 4586–4600). Here we examined the role of the PKARIα subunit of PKA in regulating RSK1 activation and cell survival. In mouse lung fibroblasts, silencing of the PKARIα increased the phosphorylation and activation of RSK1, but not of RSK2 and RSK3, in the absence of any stimulation. Silencing of PKARIα also decreased the nuclear accumulation of active RSK1 and increased its cytoplasmic content. The increased activation of RSK1 in the absence of any agonist and changes in its subcellular redistribution resulted in increased phosphorylation of its cytoplasmic substrate BAD and increased cell survival. The activity of PKA and phosphorylation of BAD (Ser-155) were also enhanced when PKARIα was silenced, and this, in part, contributed to increased cell survival in unstimulated cells. Furthermore, we show that RSK1, PKA subunits, D-AKAP1, and protein phosphatase 2A catalytic subunit (PP2Ac) exist in a complex, and dissociation of RSK1 from D-AKAP1 by either silencing of PKARIα, depletion of D-AKAP1, or by using a peptide that competes with PKARIα for binding to AKAPs, decreased the amount of PP2Ac in the RSK1 complex. We also demonstrate that PP2Ac is one of the phosphatases that dephosphorylates RSK, but not ERK1/2. Thus, in unstimulated cells, the increased phosphorylation and activation of RSK1 after silencing of PKARIα or depletion of D-AKAP1 are due to decreased association of PP2Ac in the RSK1 complex.Cyclic AMP-dependent protein kinase (PKA)3 plays a pivotal role in manifesting an array of biological actions ranging from cell proliferation and tumorigenesis to increased inotropic and chronotropic effects in the heart as well as regulation of long term potentiation and memory. The PKA holoenzyme is a heterotetramer and consists of two catalytic (PKAc) subunits bound to a dimer of regulatory subunits. To date, four isoforms of the PKAc (PKAcα, PKAcβ, PKAcγ, and PKAcδ) and four isoforms of the regulatory subunits (RIα, RIβ, RIIα, and RIIβ) have been described (1). The various isoforms of PKA subunits are expressed differently in a tissue- and cell-specific manner (2). In addition to binding and inhibiting the activity of PKAc via their pseudo substrate region (3–6), the R subunits also interact with PKA-anchoring proteins (AKAPs) and facilitate the localization of PKA in specific subcellular compartments (7, 8). More than 50 AKAP family members have been described, and although most of these have a higher affinity for the RII subunits (9), certain AKAPs such as D-AKAP1 and D-AKAP2 preferentially bind the PKARIα subunit (10–12). Because the AKAPs also bind other signaling molecules such as phosphatases (PP2B) and kinases (protein kinase C), they act as scaffolds to organize and integrate specific signaling events within specific compartments in the cells (7, 8, 13, 14).We have shown that the PKARIα and PKAcα subunits of PKA interact with the inactive and active forms of p90RSK1 (RSK1), respectively (15). Binding of inactive RSK1 to PKARIα decreases the interactions between PKARIα and PKAc, whereas the association of active RSK1 with PKAc increases interactions between PKARIα and PKAc such that larger amounts of cAMP are required to activate PKAc in the presence of active RSK1 (15). Moreover, the indirect (via subunits of PKA) interaction of RSK1 with AKAPs is required for the nuclear localization of active RSK1 (15), and disruption of the interactions of RSK1·PKA complex from AKAPs results in increased cytoplasmic distribution of active RSK1 with a concomitant increase in phosphorylation of its cytosolic substrates such as BAD and reduced cellular apoptosis (15). These findings show the functional and biological significance of RSK1·PKA·AKAP interactions.Besides inhibiting PKAc activity, the physiological role of PKARIα is underscored by the findings that mutations in the PKAR1A gene that result in haploinsufficiency of PKARIα are the underlying cause of Carney complex (CNC) (16, 17). CNC is an autosomal dominant multiple neoplasia syndrome in which myxomas of the skin, heart, and/or vicera are recurrent and also associated with high incidence of endocrine and ovarian tumors as well as Schwannomas (18–20). The majority of patients with the multiple neoplasia CNC syndrome harbor mutations in the PKAR1A gene (21) that result in PKARIα haploinsufficiency. Importantly, however, loss of heterozygosity or alterations in PKA activity may not contribute toward the tumorigenicity in either CNC patients or mouse model of CNC (21). This suggests that loss of function(s) of PKARIα other than inhibition of PKA activity is(are) involved in the enhanced tumorigenicity in CNC patients and in the murine CNC model.Because RSK1 regulates cell growth, survival, and tumorigenesis (22–27), and because its subcellular localization and ability to inhibit apoptosis is regulated by its interactions via PKARIα with AKAPs (15), we reasoned that in conditions such as CNC where PKARIα levels are decreased, the increase in tumorigenicity may emanate from aberrant regulation of the activity and/or subcellular localization of RSK1. Therefore, herein we have investigated whether PKARIα regulates the activation of RSK1 and its biological functions. Decreasing expression of PKARIα by small interfering RNA (siRNA) enhanced the activation of RSK1, but not RSK2 or RSK3, in the absence of an agonist such as EGF. This was accompanied by an increase in the cytoplasmic localization of the active RSK1 and enhanced cell survival in the absence of any growth factor. Silencing of PKARIα also increased PKAc activity and while part of the anti-apoptotic response could be attributed to an increase in PKAc activity, activation of RSK1 under basal conditions contributed significantly to cell survival. The elevation in RSK1 activity upon PKARIα silencing was not due to increased PKAc activity. Rather the activation of RSK1 in the absence of PKARIα was due to a decrease in PP2A in the RSK1 complex. These findings demonstrate a novel role for PKARIα in the regulation of RSK1 activation, a key enzyme that mediates the downstream actions of the ERK1/2 cascade. 相似文献