Honey Pollen: Using Melissopalynology to Understand Foraging Preferences of Bees in Tropical South India

The aim of the study was to use melissopalynology to delineate the foraging preferences of bees in tropical environs. This was done by comparing pollen spectra obtained from the same hives every three months for three years at four sampling locations (in two sites) within a confined landscape mosaic. If melissopalynology is highly replicable, the spatial variation of the pollen spectrum from the honey samples would be much more than the temporal (inter-annual) variations. In other words, given the three factors, Month, Year and Location, honey pollen from different Locations, in a given Year and Month, would be much less similar than samples from different Years, in a given Location and Month. We then determined how the factors, Month, Year and Location, influenced the pollen influx of honey. The pollen analyses of the 42 honey samples collected during the three years yielded 80 pollen taxa/types: 72 dicotyledonous and 8 monocotyledonous, encompassing 41 botanical families spread into seven life forms namely, trees, shrubs, epiphytes, herbs, climbers, grasses, and sedges. Our results showed that pollen spectra were equally comparable between Locations and between Months and Years; the importance of this result is that it helped to demonstrate the complexity of ecological/environmental phenomena involved in the process of foraging by bees in a heterogeneous and complex landscape.     

Hepatoprotective activity of Luffa acutangula against CCl4 and rifampicin induced liver toxicity in rats: a biochemical and histopathological evaluation

Hepatoprotective activity of hydroalcoholic extract of Luffa acutangula (HAELA) against carbon tetrachloride (CCl4) and rifampicin-induced hepatotoxicity in rats was evaluated and probable mechanism(s) of action has been suggested. Administration of standard drug- silymarin and HAELA showed significant hepatoprotection against CCl4 and rifampicin induced hepatotoxicity in rats. Hepatoprotective activity of HAELA was due to the decreased levels of serum marker enzymes viz., (AST, ALT, ALP and LDH) and increased total protein including the improvement in histoarchitecture of liver cells of the treated groups as compared to the control group. HAELA also showed significant decrease in malondialdehyde (MDA) formation, increased activity of non-enzymatic intracellular antioxidant, glutathione and enzymatic antioxidants, catalase and superoxide dismutase. Results of this study demonstrated that endogenous antioxidants and inhibition of lipid peroxidation of membrane contribute to hepatoprotective activity of HAELA.     

Norepinephrine induced alpha-adrenoceptor mediated increase in rat brain Na-K ATPase activity is dependent on calcium ion

It has been reported that norepinephrine increases Na-K ATPase activity by acting on -1 adrenoceptors. The mechanism of such an increase was investigated. The norepinephrine induced increase in synaptosomal Na-K ATPase activity was prevented by pretreating the rat brain homogenate with either EDTA, a divalent cation chelator or prazosin, an -1 adrenoceptor blocker. The norepinephrine and EGTA increased the Na-K ATPase activity in the synaptosome prepared from rat brain homogenate untreated with EDTA. The EGTA was ineffective in stimulating the enzyme activity if the synaptosome was prepared from homogenate treated with norepinephrine. However, the EGTA was effective in increasing the enzyme activity if the synaptosome was prepared from the homogenate treated with norepinephrine in the presence of prazosin.

Thus, norepinephrine did not increase the Na-K ATPase activity in the presence of EDTA or -1 adrenoceptor blocker. Similarly, the Ca⁺⁺ chelator, EGTA, could not increase the enzyme activity if the homogenate was pretreated with norepinephrine alone. However, if norpeinephrine action was blocked by -1 antagonist prazosin, EGTA increased the enzyme activity possibly by chelation of Ca⁺⁺. Further, chlorotetracycline fluorescence study showed that norepinephrine removes membrane bound Ca⁺⁺. Thus, it is likely that norepinephrine acts on adrenoceptors and removes membrane bound Ca⁺⁺ and thereby increases the Na-K ATPase activity in the synaptosome.     

Generation and Characterization of Murine Monoclonal Antibodies to Recombinant YopM, YopB and LcrV Proteins of Yersinia pestis

Summary YopM, an effector, YopB, a translator, and LcrV, a regulator, are proteins forming important componants of type III secretion system of Yersinia pestis. Recombinant truncated YopM of 32 kDa, YopB of 28 kDa and LcrV of 31 kDa sizes were utilized for priming BALB/c mice for the generation of monoclonal antibodies following standard poly-ethylene glycol (PEG) fusion protocol. Nine, 10 and 6 stabilized hybridoma cell lines could be generated against YopM, YopB and LcrV proteins, respectively. All these monoclonal antibodies were found reactive to Y. pestis strain A1122 and did not show any cross-reactivity to Y. enterocolitica, Y. pseudotuberculosis, Y. kristensenii, Y. frederiksenii, Y. intermedia, Klebsiella pneumoniae, Escherichia coli, Salmonella typhi, Salmonella abortus-equi and Staphylococcus aureus tested by ELISA and Western blotting. Monoclonal antibodies also exhibited reactivity to their corressponding native protein antigens in Y. pestis i.e. 42 kDa for YopM, 41 kDa for YopB and 37 kDa for LcrV in immunoblotting. Reactivity of monoclonal antibodies was further assessed on 26 Y. pestis isolates including 18 from 1994 plague outbreak regions (11 from pneumonic patients, 7 from rodents) and 8 from rodents of Deccan plateau of Southern India by Western blotting as well as by sandwich ELISA. The monoclonal antibodies could specifically locate the expression of yopM, yopB and lcrV genes among these Indian Y. pestis strains as well. Results obtained with sandwich ELISA and Western blot were identical to those observed by PCR. Monoclonal antibodies to Yops, therefore, can be employed for an early and reliable identification of virulent Y. pestis strains.