DNA vaccine against malaria: a long way to go

Vaccination is the attempt to mimic certain aspects of an infection for the purpose of causing an immune response that will protect the individual from that infection. Malaria, a disease responsible for immense human suffering, is caused by infection with Plasmodium spp. parasites, which have a very complex life cycle--antigenically unique stages infect different tissues of the body. It is a parasitic disease for which no successful vaccine has been developed so far, despite considerable efforts to develop a subunit vaccine that offers protective immunity. Due to the spread of drug-resistant malaria, efforts to develop an effective vaccine have become increasingly critical. DNA vaccination provides a stable and long-lived source of protein vaccine capable of inducing both antibody- and cell-mediated immune responses to a wide variety of antigens. Injected DNA enters the cells of the host and makes the protein, which triggers the immune response. According to present needs, the flexibility of DNA vaccine technology permits the combination of multiple antigens from both the preerythrocytic and erythrocytic stages of malaria parasite. DNA vaccines with genes coding for different antigenic parts of malaria proteins have been created and presently some of these are undergoing field trials. The results from these trials will help to determine the likelihood of success of this technology in humans. This review presents an update of the studies carried out in malaria using DNA vaccine approach, the challenges, and the future prospects.     

Regulation of myocardial contractility and cell size by distinct PI3K-PTEN signaling pathways

The PTEN/PI3K signaling pathway regulates a vast array of fundamental cellular responses. We show that cardiomyocyte-specific inactivation of tumor suppressor PTEN results in hypertrophy, and unexpectedly, a dramatic decrease in cardiac contractility. Analysis of double-mutant mice revealed that the cardiac hypertrophy and the contractility defects could be genetically uncoupled. PI3Kalpha mediates the alteration in cell size while PI3Kgamma acts as a negative regulator of cardiac contractility. Mechanistically, PI3Kgamma inhibits cAMP production and hypercontractility can be reverted by blocking cAMP function. These data show that PTEN has an important in vivo role in cardiomyocyte hypertrophy and GPCR signaling and identify a function for the PTEN-PI3Kgamma pathway in the modulation of heart muscle contractility.     

Opercular Activity and Temporal Organization of Surfacing Behaviour in Indian Catfishes, Clarias batrachus and Heteropneustes fossilis

Opercular and surfacing activity were observed in the Indian catfish Clarias batrachus and Heteropneustes fossilis . In the series A experiments, the opercular activity was monitored under two experimental conditions, viz., (1) surfacing allowed and (2) surfacing prevented. A statistically significant elevation of the rate of opercular activity was observed when air breathing was prevented in both species. In addition, a significant prevention effect and a time of day dependence of that were noticed in both species. In the series B experiments, temporal patterns of surfacing and air-gulping activities were examined under an artificial LD 12:12 schedule at 2-h intervals over a period of 48 h. The inter air-gulping interval in minutes between two consecutive bouts was also recorded four times each day in both species. A significant 24-h rhythm was found for the rate of surfacing activity and length of the inter air-gulping interval in both species. However, the overall activity appears to be much higher in Heteropneustes fossilis as compared to Clarias batrachus .     

Effects of fungal infection and wounding on the expression of chitinases and β-1,3 glucanases in near-isogenic lines of barley

Chitinases (EC 3.2.1.14) and β -1.3 glucanases (EC 3.2.1.39) have been known to play a vital role in the defense of plants against fungal pathogens. The pattern of induction of these two enzymes subsequent to infection by powdery mildew was studied in 10 pairs of near-isogenic lines of barley ( Hordeum vulgare L.) which possess powdery mildew resistance genes. These isogenic lines have been grotiped according to their reaction to the fungus. The induction patterns varied between the resistant and the susceptible cultivars within each group and between different groups. More tsozymcs were induced in susceptible varieties of highly resistant groups and the overall levels and the number of isozymes of chitinases and β -1.3 glucanases were lower in groups with low resistance. The effect of powdery mildew infection and mechanical wounding on the cellular localization of chitinases and β -1.3 glucanases in barley leaves has also been studied. The 31 kDa leaf chitinase, L-CH2, and trace amounts of a 25 kDa chitinase. L-CH3. were present in healthy leaves. Wounding increased the levels of L-CH3 within I ft h. Powdery mildew infection increased the levels of L-CH3 both in intercellular fluid and in intracellular extract of leaves. A /3-I.3 glucanase. GH, also increased after infection and wounding. In infected barley leaves, GL-1 was present both in intercellular space and intracellular extract. It is concluded that powdery mildew resistance genes exhibit qualitative and quantitative differences in the expression of chitinases and β -1.3 glucanases. Further, chitinases and β -1.3 glucanases appear to be a response to active infection rather than the factors responsible for disease resistance.     

Physiological and biochemical analysis of the glutamine synthetase-impaired mutants of the nitrogen-fixing cyanobacteriumNostoc muscorum

Three types of glutamine synthetase (GS)-impaired mutants (gln) ofNostoc muscorum were isolated as ethylenediamine (EDA)-resistant phenotypes and characterized with respect to heterocyst development, nitrogen fixation, ammonium metabolism, photosynthetic characteristics, and glutamine synthetase activity. The criterion for categorizing the mutants was the extent of loss of GS activity (both in transferase and biosynthetic assays) compared with wild type; it was 70% in EDA-1, 30% in EDA-2, and more than 90% in EDA-3 strains. The level of nitrogenase activity in mutant strains was proportionate to heterocyst frequency and was found refractory to ammonium and EDA repression. In EDA-resistant strains, development of heterocysts and their spacing pattern remained unaffected and did not respond to treatment of amino acid analogues, drugs, and ammoniacal compounds which otherwise either stimulated or suppressed the number and altered the spacing pattern in wild type. A biphasic pattern of ammonium uptake indicating two transport systems was observed in all the strains except that the Km values for both high- and low-affinity systems were altered in mutant strains. In vivo treatment with MSX or EDA significantly inhibited the GS activity in wild type, whereas mutant strains did not respond to these treatments and were able to liberate NH ₄ ⁺ continuously into the medium without MSX treatment. During NH ₄ ⁺ uptake, percentage inhibition of O₂ evolution and changes in increase of fluorescence intensity were low in EDA strains compared with wild type. Assessment of GS protein with antibodies against GS and quantitative polyacrylamide gel electrophoresis (PAGE) suggested that loss in specific activity of GS per milligram of extractable protein in EDA mutants was owing to low production of GS-specific protein. SDS-PAGE of purified GS enzyme from all the strains revealed only one polypeptide band of molecular weight of about 51.28 kDa.     

Isolation,characterization, and transmission of human T-lymphotropic virus types I and II in culture

Highly sensitive coculture methods were developed both for isolation of human T-lymphotropic virus types I and II (HTLV-1 and HTLV-II) from infected individuals and for productive infection of lymphoid cells. Mitogen-activated peripheral blood mononuclear cells (PBMC) from 13 HTLV-I- and 20 HTLV-II-positive specimens were cocultured with an equal number of mitogen-activated PBMC from HTLV-seronegative individuals, and culture supernatants were tested for the presence of soluble p24^gag antigens at weekly intervals for 4 weeks. Eleven of 13 (85%) HTLV-I and 14 of 20 (70%) HTLV-II cultures were positive for p24 antigens. None of the 17 HTLV-seroindeterminate or six HTLV-seronegative specimens were positive for the presence of p24 antigen. The isolation rates for HTLV-I and HTLV-II by an alternative whole-blood lysis procedure were comparable to those obtained by standard PBMC cultures. Furthermore, cocultivation of PHA-stimulated PBMC from healthy donors with lethally irradiated HTLV-I- and HTLV-II-infected cell lines (SP and Mo-T, respectively) resulted in productive viral infection, as reflected by the appearance of p24^gag antigens concomitant with specific genomic amplification of HTLV proviral DNA after 3 weeks of cocultivation. Thus, the cocultivation technique provides a highly sensitive and specific procedure both for HTLV isolation and for infection of target cells.     

1,2,3-Triazole Derivatives as an Emerging Scaffold for Antifungal Drug Development against Candida albicans: A Comprehensive Review

Candida infections are most prominent among fungal infections majorly target immunocompromised and hospitalized patients and cause significant morbidity and mortality. Candida albicans is the notorious and most prevalent among all pathogenic Candida strains. Its emerging resistance toward available antifungal agents making it hard to tackle and emerging as global healthcare emergency. Simultaneously, 1,2,3-triazole nucleus is a privileged scaffold that is gaining importance in antifungal drug development due to being a prominent bioactive linker and isostere of triazole based antifungal class core 1,2,4-triazole. Numerous reports have been updated in scientific literature in last few decades related to utilization of 1,2,3-triazole nucleus in antifungal drug development against Candida albicans. Present review will shed light on various preclinical studies focused on development of 1,2,3-triazole derivatives targeting Candida albicans along with brief highlight on clinical trials and newly approved drugs. Structure-activity relationship has been precisely discussed for each architect along with future perspective that will help medicinal chemists in design and development of potent antifungal agents for tackling infections derived from Candida albicans.     

Effects of 24-epibrassinolide on growth and metal uptake in <Emphasis Type="Italic">Brassica juncea</Emphasis> L. under copper metal stress

The present investigation describes the effects of 24-epibrassinolide on plant growth, copper uptake and bioconcentration factor in the plants of Brassica juncea L. cv. PBR 91 under Cu metal stress. The study revealed that there was an improvement in the shoot emergence and plant biomass production under the influence of pre-germination treatment of 24-epibrassinolide (24-epiBL). In addition, 24-epiBL blocked copper metal uptake and accumulation in the plants.     

Release of an enantioselective nitrilase from Alcaligenes faecalis MTCC 126: a comparative study

Nitrilases constitute an important class of hydrolases, however, cheap and ready availability of enzyme sources limit their practical synthetic applications. The present investigation was directed to compare the applicability of various physical cell disintegration methods namely, solid shear, liquid shear and sonication, for the release of an enantioselective nitrilase from Alcaligenes faecalis MTCC 126. Different parameters associated with each method were optimized in order to ensure maximal release of active nitrilase. The methods were also compared under optimal conditions for their efficiency of nitrilase release and extent of cell disruption, and enzyme release were visualized under a differential interference contrast microscope (DIC) and SDS-PAGE, respectively. Maximum release of the enzyme protein from the cells was observed in case of liquid shear method employing high-pressure homogenization, however, the specific activity of nitrilase was highest in cell-free extract (CFE) generated by sonication. Both the solid shear and liquid shear proved to be equally effective for maximum release of intracellular enzymes, however, from the specific activity point of view, sonication was found to be a better one compared to other two methodologies. The generated cell-free extract can be further employed for the production of enantiopure chiral carboxylic acids, which are important chiral building blocks.     

Activity of alpha- and theta-defensins against primary isolates of HIV-1

Theta-defensins are lectin-like, cyclic octadecapeptides found in the leukocytes of nonhuman primates. They are also homologues of the more familiar alpha-defensins expressed by humans and certain other mammals. This study compares the ability of six theta-defensins (hominid retrocyclins 1-3 and rhesus theta-defensins 1-3) and four human alpha-defensins (human neutrophil peptides (HNPs) 1-4) to bind gp120 and CD4. In addition, we compared the ability of these theta-defensins and HNP-1 to protect J53-BL cells (an indicator cell line) from primary HIV-1 isolates that varied in subtype and coreceptor usage. The most potent theta-defensin, retrocyclin-2, bound with exceptionally high affinity to gp120 (K(D), 9.4 nM) and CD4 (K(D), 6.87 nM), and its effectiveness against subtype B isolates (IC(50), 1.05 +/- 0.28 microg/ml; 520 +/- 139 nM) was approximately twice as great as that of HNP-1 on a molar basis. We also show, for the first time, that human alpha-defensins, HNPs 1-3, are lectins that bind with relatively high affinity to gp120 (K(D) range, 15.8-52.8 nM) and CD4 (K(D) range, 8.0-34.9 nM). Proteins found in human and FBS bound exogenous HNP-2 and retrocyclin-1, and competed with their ability to bind gp120. However, even the low concentrations of alpha-defensins found in normal human serum suffice to bind over half of the gp120 spikes on HIV-1 and a higher percentage of cell surface CD4 molecules. Although this report principally concerns the relationship between carbohydrate-binding and the antiviral properties of alpha- and theta-defensins, the lectin-like behavior of defensins may contribute to many other activities of these multifunctional peptides.