Construction and Screening of Chickpea cDNA Library with Heterologous Legumin cDNA Probe

A cDNA library was constructed from developing chickpea cotyledons in the expression vector λ gt 11. The library when plated on X-gal and IPTG showed about 35% recombinants. These recombinants were screened using pea legumin cDNA probe. Of a total of 4 × 10⁴ cDNA clones screened, 20 clones showed homology to legumin probe. The presence of cDNA insert in these clones was further confirmed by Southern blot hybridization.     

A novel site of action of a high affinity A1 adenosine receptor antagonist

XAC, a high affinity antagonist of the A1 adenosine receptor, enhances adenylate cyclase activity by 1.3-2 fold with an EC50 of approximately 47 nM in adipocyte membranes pretreated with adenosine deaminase to eliminate adenosine and in the presence of total phosphodiesterase inhibition by 100 microM papaverine. This effect of XAC is observed only at concentrations of GTP sufficient to activate Gi (approximately 5 x 10(-6) M GTP) and is not evident in the absence or presence of lower GTP concentrations. ADP ribosylation of Gi by pertussis toxin treatment also abolishes this stimulatory action of XAC. Furthermore, in the presence of GTP activation of inhibitory prostaglandin E1 receptors diminishes the stimulatory effect of XAC on adenylate cyclase. In addition, XAC interferes with GTP-mediated inhibition of forskolin-stimulated adenylate cyclase activity in a noncompetitive manner. Finally, XAC is only a weak inhibitor of the low Km cyclic AMP phosphodiesterase, producing approximately 40% inhibition of phosphodiesterase activity at a concentration of 100 microM. These data suggest that XAC increases adenylate cyclase activity in absence of endogenous adenosine by inhibiting tonic Gi activity in a reversible manner.     

Discovery of morpholine-based aryl sulfonamides as Nav1.7 inhibitors

Replacement of the piperidine ring in the lead benzenesulfonamide Na_v1.7 inhibitor 1 with a weakly basic morpholine core resulted in a significant reduction in Na_v1.7 inhibitory activity, but the activity was restored by shortening the linkage from methyleneoxy to oxygen. These efforts led to a series of morpholine-based aryl sulfonamides as isoform-selective Na_v1.7 inhibitors. This report describes the synthesis and SAR of these analogs.     

Fuzzy self-tuning PI controller for bioreactors

A fuzzy self-tuned PI controller for regulation of a nonlinear bioreactor is presented. The basic idea is to parameterize Ziegler-Nichols like tuning formula by two parameters and and then to use an on-line fuzzy inference mechanism to tune the PI controller parameters k _c and _I . The fuzzy self-tuning method takes the process output error as input and the tuning parameters and as outputs. Simulation studies on the nonlinear bioreactor model equations show that the present method is superior to that of fixed parameters conventional PI controller (based on transfer function) for both servo and regulatory problems. The present fuzzy logic controller is robust to process parameters uncertainties and to changes in magnitude and direction of the disturbances.     

Alterations in mRNA levels, expression, and function of GTP-binding regulatory proteins in adipocytes from obese mice (C57BL/6J-ob/ob)

Messenger RNA levels for the alpha subunit of G-proteins expressed in adipocytes of lean and obese (ob/ob) mice were compared with relative levels of the encoded proteins. Using both toxin labeling and Western blots, expression of Gs alpha, Gi alpha-1, and Gi alpha-3 was decreased by approximately 2-fold in adipocytes of obese mice, while levels of Gi alpha-2 did not differ between the phenotypes. The decreases in Gi alpha-1 and Gs alpha in the obese mouse were attributed to decreased mRNA levels for these proteins. Similar mRNA levels for Gi alpha-3 were noted in both phenotypes, but Gi alpha-2 message was increased 2-fold in the obese mouse. Inhibitory regulation of adipocyte adenylylcyclase through G-proteins was evaluated by comparing the ability of R-PIA to inhibit isoproterenol-stimulated responses between the phenotypes. In spite of the decrease in Gi alpha-1 and Gi alpha-3 in adipocytes from obese mice, R-PIA inhibited adenylylcyclase, cAMP-dependent protein kinase, and lipolysis in similar fashion in both phenotypes. The GTP analog, Gpp(NH)p also inhibited forskolin-stimulated adenylylcyclase in a comparable manner, but the magnitude of the inhibition was slightly less in adipocyte membranes from obese mice. In contrast, the decrease in expression of Gs alpha was translated into substantially poorer activation of isoproterenol-stimulated responses in the obese mouse. The concentration of isoproterenol producing half-maximal activation of adenylylcyclase, protein kinase, and lipolysis did not differ between the phenotypes, but the maximal responses were much lower in cells from obese mice. Similar lipolytic potential in isolated adipocytes from each phenotype and similar total forskolin-stimulated cyclase activity in adipocyte membranes from each phenotype suggest that decreased expression of Gs alpha may contribute to the characteristic alteration in mobilization of triglycerides noted in adipocytes from obese mice.     

Adenosine and dopamine receptor interactions in striatum and caffeine-induced behavioral activation

This review will examine how dopamine, a monoamine neurotransmitter, and adenosine, a neuromodulator, regulate behavioral activation, primarily as reflected by locomotor activity, in rodents. Complex interactions among 2 major types of adenosine receptors (A1AR and A2AAR) and 2 dopamine receptors (D1R and D2R) occur due to physical interactions that alter their ligand-binding properties and subsequent effects on common postreceptor signaling molecules. The output from these interactions in striatum modulates neurotransmission and subsequently influences spontaneous locomotor activity. Caffeine is a nonselective adenosine receptor antagonist that blocks 2 major types of adenosine receptors, A1AR and A2AAR, in the brain. Pharmacologic manipulation of these receptors with drugs such as caffeine offers potential therapeutic benefit for treatment of Parkinson disease.