Leishmania donovani-infected splenic macrophages and P388D1 (P388D1(I)) failed to activate T cells in response to low dose of exogenous peptide. The membrane fluidity of P388D1(I) was greater than that of the normal counterpart P388D1(N), but could be reduced either by exposing the cell below phase transition point or by loading cholesterol into membrane (L-P388D1(I)), and this was associated with enhanced Ag-presenting ability of P388D1(I). Presentation of endogenous leishmanial Ag, kinetoplastid membrane protein-11, was also defective, but could be corrected by loading cholesterol into membrane. Because membrane rafts are important for Ag presentation at a low peptide dose, raft architecture of P388D1(I) was studied using raft (CD48 and cholera toxin-B) and non-raft (CD71) markers in terms of their colocalization with I-Ad. Binding of anti-CD48 mAb and cholera toxin B subunit decreased significantly in P388D1(I), and consequently, colocalization with I-Ad was not seen, but this could be restored in L-P388D1(I). Conversely, colocalization between I-Ad and CD71 remained unaffected regardless of the presence or the absence of intracellular parasites. P388D1(N) and L-P388D1(I), but not P388D1(I), formed peptide-dependent synapse with T cells quite efficiently and this was found to be corroborated with both intracellular Ca2+ mobilization in T cells and IL-2 production. This indicated that intracellular parasites disrupt the membrane rafts, possibly by increasing the membrane fluidity, which could be corrected by making the membrane rigid. This may be a strategy that intracellular L. donovani adopts to evade host immune system.
Pentavalent antimony complexes, such as sodium stibogluconate and sodium antimony gluconate (SAG), are still the first choice for chemotherapy against various forms of leishmaniasis, including visceral leishmaniasis, or kala-azar. Although the requirement of a somewhat functional immune system for the antileishmanial action of antimony was reported previously, the cellular and molecular mechanism of action of SAG was not clear. Herein, we show that SAG induces extracellular signal-regulated kinase 1 (ERK-1) and ERK-2 phosphorylation through phosphoinositide 3-kinase (PI3K), protein kinase C, and Ras activation and p38 mitogen-activated protein kinase (MAPK) phosphorylation through PI3K and Akt activation. ERK-1 and ERK-2 activation results in an increase in the production of reactive oxygen species (ROS) 3 to 6 h after SAG treatment, while p38 MAPK activation and subsequent tumor necrosis factor alpha release result in the production of nitric oxide (NO) 24 h after SAG treatment. Thus, this study has provided the first evidence that SAG treatment induces activation of some important components of the intracellular signaling pathway, which results in an early wave of ROS-dependent parasite killing and a stronger late wave of NO-dependent parasite killing. This opens up the possibility of this metalloid chelate being used in the treatment of various diseases either alone or in combination with other drugs and vaccines.Visceral leishmaniasis, caused by Leishmania donovani, is fatal if left untreated. The pentavalent antimony (Sb V ) compound urea stibamine first emerged as an effective chemotherapeutic agent against Indian kala-azar (6). Although different forms of pentavalent antimony complexes (chelates, i.e., Sb V chelated to an organic backbone), namely, sodium stibogluconate (Pentostam) and meglumine antimoniate (Glucantime), are still the first choice for treatment of leishmaniases (21, 42), their mechanism of action is still largely unknown. Previous studies indicated that sodium antimony gluconate (SAG) failed to act in immunocompromised hosts, such as patients who are suffering from AIDS or receiving immunosuppressive agents (17, 38) and nude (36) and severe combined immunodeficient (SCID) mice (15). Several studies have shown that endogenous interleukin-2 (IL-2) (34), IL-4 (1, 43), and IL-12 (41) influence the effectiveness of chemotherapy with pentavalent antimony. These findings are inclined to indicate the requirement of a somewhat functional T-cell compartment for SAG action. Moreover, SAG has been found to inhibit selective protein tyrosine phosphatases (Src homology 2 domain-containing tyrosine phosphatase 1 [SHP1] and SHP2) in vitro and augment cytokine signaling and responses in hematopoietic cell lines (46), suggesting the role of phosphatases and possibly other signal transduction pathways in SAG-induced control of Leishmania infection. In addition, the dose of SAG that kills the axenic amastigotes in vitro is 50 times higher than the concentration of the drug required for killing the parasite w...
The membrane fluidity of antigen-presenting cells (APCs) has a significant bearing on T-cell-stimulating ability and is dependent on the cholesterol content of the membrane. The relationship, if any, between membrane fluidity and defective cell-mediated immunity in visceral leishmaniasis has been investigated. Systemic administration of cholesterol by liposome delivery (cholesterol liposomes) in Leishmania donovaniinfected hamsters was found to cure the infection. Splenic macrophages as a prototype of APCs in infected hamsters had decreased membrane cholesterol and an inability to drive T cells, which was corrected by cholesterol liposome treatment. The effect was cholesterol specific because liposomes made up of the analogue 4-cholesten-3-one provided almost no protection. Infection led to increases in interleukin-10 (IL-10), transforming growth factor beta, and IL-4 signals and concomitant decreases in gamma interferon (IFN-␥), tumor necrosis factor alpha, and inducible NO synthase signals, which reverted upon cholesterol liposome treatment. The antileishmanial T-cell repertoire, whose expansion appeared to be associated with protection, was presumably type Th1, as shown by enhanced IFN-␥ signals and the predominance of the immunoglobulin G2 isotype. The protected group produced significantly more reactive oxygen species and NO than the infected groups, which culminated in killing of L. donovani parasites. Therefore, cholesterol liposome treatment may be yet another simple strategy to enhance the cell-mediated immune response to L. donovani infection. To our knowledge, this is the first report on the therapeutic effect of cholesterol liposomes in any form of the disease.
Adolescence is a journey from the world of childhood to the world of adulthood. In India adolescents constitute 21.4% of the population that comprises one-fifth of the total population. The health and nutritional status of the children is an index of the national investment in the development of future manpower. Thus present study was undertaken to assess the nutritional status of school going adolescent girls in semi urban area of West Bengal. This study was conducted among 746 school children of 11-18 years studying in four girls' schools in Hooghly district. School was selected by simple random sample in two municipality areas. Nutritional status was evaluated using anthropometric indicators recommended by WHO(World Health Organization) experts committee. Height for age below 3 rd percentile of NCHS (National Centre for Health statistics) /WHO reference values was classified as stunting. Thinness was defined as BMI-for-age <5 th percentile of WHO/NCHS standard data. Over weight and obese were defined as BMI-for -age >85 th percentile and >95 th percentile respectively. The present study highlight the duel burdens of underweight and overweight in semi urban adolescent girls. Overweight is more urgent problem than underweight. Lifestyle (physical activity and fast food intake habit) was one of the contributing factor of overweight. To minimized both forms of malnutrition, it is essential to educate and create awareness programmes at the community levels. Health education programmes and effective policies are urgently required to promote healthy eating and physical activity.
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