Immunoglobulin (Ig)-containing plasma cells in the Harderian gland in broiler and native chickens of Bangladesh

The distribution and frequency of immunoglobulin (Ig)-containing plasma cells, their variations due to sex, and the mode of secretion of Ig cells into the duct system of the Harderian gland was investigated in broiler and native chickens of both sexes in Bangladesh. The Harderian gland is covered by a capsule, and the connective tissue septa divide the gland into numerous unequal-sized numerous lobes and lobules. The Ig-containing plasma cells were located in the interstitial space, interacinar space, apical part of the lobule, and lumina of the lobules of the Harderian gland in both broiler and native chickens. The population of these Ig-containing plasma cells varied in between broiler and native chickens, and also between male and female broiler and native chickens. In the broiler, the number of IgM-containing plasma cells was higher; in contrast, in the native chickens, the population of IgA-containing plasma cells was larger. In the broiler, there were more IgA- and IgG-containing plasma cells in the male; in contrast, there were more IgM-containing plasma cells in female. In native chickens the frequency of IgA-containing plasma cells was greater in the female than male. When the data for broiler and native birds were compared, it was found that there were significantly more IgA- and IgG-containing plasma cells in the native male and female chickens than in the broiler males and females. The secretory Igs were located in the lumina of acini and the duct system of the Harderian gland. In the present study Ig-containing plasma cells were observed to be released in the lumina of the lobules of Harderian gland by the breakdown of acinar tissues in broilers, and by holocrine mode of secretion in the native chicken. These results suggested that the Harderian gland, even though it is not a lymphoid organ as a whole, but acts as an immunopotent organ in chickens, and that the gland in native chicken contains more Ig-containing plasma cells due to their scavenging.     

The anticancer activity of visnagin,isolated from Ammi visnaga L., against the human malignant melanoma cell lines,HT 144

Melanoma is a cancer of melanocyte cells and has the highest global incidence. There is a need to develop new drugs for the treatment of this deadly cancer, which is resistant to currently used treatment modalities. We investigated the anticancer activity of visnagin, a natural furanochromone derivative, isolated from Ammi visnaga L., against malignant melanoma (HT 144) cell lines. The singlet oxygen production capacity of visnagin was determined by the RNO bleaching method while cytotoxic activity by the MTT assay. Further, HT 144 cells treated with visnagin were also exposed to visible light (λ ≥ 400 nm) for 25 min to examine the illumination cytotoxic activity. The apoptosis was measured by flow cytometry with annexin V/PI dual staining technique. The effect of TNF-α secretion on apoptosis was also investigated. In standard MTT assay, visnagin (100 µg/mL) exhibited 80.93% inhibitory activity against HT 144 cancer cell lines, while in illuminated MTT assay at same concentration it showed lesser inhibitory activity (63.19%). Visnagin was induced apoptosis due to the intracellular generation of reactive oxygen species (ROS) and showed an apoptotic effect against HT 144 cell lines by 25.88%. However, it has no effect on TNF-α secretion. Our study indicates that visnagin can inhibit the proliferation of malignant melanoma, apparently by inducing the intracellular oxidative stress.

     

Design and Synthesis of Novel Cytotoxic Indole‐Thiosemicarbazone Derivatives: Biological Evaluation and Docking Study

In this work, two novel series of indole‐thiosemicarbazone derivatives were designed, synthesized, and evaluated for their cytotoxic activity against MCF‐7, A‐549, and Hep‐G2 cell lines in comparison to etoposide and colchicine as the reference drugs. Generally, the synthesized compounds showed better cytotoxicity towards A‐549 and Hep‐G2 than MCF‐7. Among them, (2E)‐2‐{[2‐(4‐chlorophenyl)‐1H‐indol‐3‐yl]methylidene}‐N‐(4‐methoxyphenyl)hydrazinecarbothioamide ( 8l ) was found to be the most potent compound against A‐549 and Hep‐G2, at least three times more potent than etoposide. The morphological analysis by the acridine orange/ethidium bromide double staining test and flow cytometry analysis indicated that compound 8l induced apoptosis in A‐549 cells. Moreover, molecular docking methodology was exploited to elucidate the details of molecular interactions of the studied compounds with putative targets.     

A novel electrochemical biosensor for selective determination of mercury ions based on DNA hybridization

An electrochemical biosensor was developed for Hg²⁺ determination based on DNA hybridization. In the presence of Hg²⁺, the target and probe DNAs with thymine–thymine (T–T) mismatches could hybridize by forming T–Hg²⁺–T complex. This induced DNA hybridization led to the decrease in reduction peak currents of ethyl green (EG) as electroactive label, which could be used for determination of Hg²⁺. The difference in the value of the peak currents of EG before and after DNA hybridization (ΔI) was linear with the concentration of Hg²⁺ in the range of 9.0 × 10⁻¹¹–1.0 × 10⁻⁹ M. The detection limit was 3.08 × 10⁻¹¹ M.     

Allosteric Modulation of a Cannabinoid G Protein-coupled Receptor: BINDING SITE ELUCIDATION AND RELATIONSHIP TO G PROTEIN SIGNALING*

The cannabinoid 1 (CB₁) allosteric modulator, 5-chloro-3-ethyl-1H-indole-2-carboxylic acid [2-(4-piperidin-1-yl-phenyl)-ethyl]-amide) ({"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569), has the paradoxical effect of increasing the equilibrium binding of [³H](−)-3-[2-hydroxyl-4-(1,1-dimethylheptyl)phenyl]-4-[3-hydroxylpropyl]cyclohexan-1-ol (CP55,940, an orthosteric agonist) while at the same time decreasing its efficacy (in G protein-mediated signaling). {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 also decreases basal signaling, acting as an inverse agonist for the G protein-mediated signaling pathway. In ligand displacement assays, {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 can displace the CB₁ antagonist/inverse agonist, N-(piperidiny-1-yl)-5-(4-chlorophenyl)-1-(2,4-dichlorophenyl)-4-methyl-1H-pyrazole-3-carboxamide(SR141716A). The goal of this work was to identify the binding site of {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 at CB₁. To this end, we used computation, synthesis, mutation, and functional studies to identify the {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569-binding site in the CB₁ TMH3-6-7 region. This site is consistent with the results of K3.28¹⁹²A, F3.36²⁰⁰A, W5.43²⁷⁹A, W6.48³⁵⁶A, and F3.25¹⁸⁹A mutation studies, which revealed the {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569-binding site overlaps with our previously determined binding site of SR141716A but extends extracellularly. Additionally, we identified a key electrostatic interaction between the {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 piperidine ring nitrogen and K3.28¹⁹² that is important for {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 to act as an inverse agonist. At this allosteric site, {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 promotes an intermediate conformation of the CB₁ receptor, explaining {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569''s ability to increase equilibrium binding of CP55,940. This site also explains {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569''s ability to antagonize the efficacy of CP55,940 in three complementary ways. 1) {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 sterically blocks movements of the second extracellular loop that have been linked to receptor activation. 2) {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 sterically blocks a key electrostatic interaction between the third extracellular loop residue Lys-373 and D2.63¹⁷⁶. 3) {"type":"entrez-protein","attrs":{"text":"ORG27569","term_id":"1179174593","term_text":"ORG27569"}}ORG27569 packs against TMH6, sterically hindering movements of this helix that have been shown to be important for receptor activation.     

Control of plant growth and water loss by a lack of light-harvesting complexes in photosystem II in Arabidopsis thaliana ch1-1 mutant

The chlorinal-1 (ch1-1) mutant of Arabidopsis thaliana lacks the light-harvesting complexes in photosystem II (LHCII) due to deficiency of ability to synthesize chlorophyll (Chl) b. To investigate if a lack of LHCII affects plant growth and water loss, the Chl content, Chl fluorescence, glutathione (GSH) content, plant growth, water loss and stomatal aperture were measured using wild-type (WT) and ch1-1 mutant plants. The leaves of ch1-1 mutants accumulated significantly lower Chl content, Chl fluorescence and GSH content than WT plants. Plant growth and the leaf area of ch1-1 plants were also lower when compared to WT plants. The ch1-1 plant showed delayed flowering and higher a number of rosette leaves compared to the WT plants. The treatment of N-acetyl-cysteine increased Chl content and Chl fluorescence in leaves of both plants. Stomatal aperture was significantly lower in guard cells of the ch1-1 mutant than that of WT plants. Dark treatment increased stomatal closure which was corrected followed by the light treatment. Abscisic acid (ABA)-induced stomatal aperture was significantly lower in ch1-1 mutant than WT plants. Water loss through stomatal opening in ch1-1 plants was significantly lower than WT plants regardless of ABA treatment. This study suggests that a lack of LHCII might control plant growth and water loss in ch1-1 mutant of Arabidopsis thaliana.     

Genetic association of IDE,POU2F1, PON1, IL1α and IL1β with type 2 diabetes in Pakistani population

A number of genes are known to be involved in glucose homeostasis. Mutations and polymorphisms in candidate genes may effect insulin production, action or resistance. This study was designed to report the association of genetic polymorphism with the type 2 diabetes (T2D) in Pakistani population. A total of 458 subjects (case n = 288, control n = 170) participated in the study. Nine single nucleotide polymorphisms were investigated in genes IDE (rs6583813 C>T, rs7910977 C>T), POU2F1 (rs3767434 A>T, rs10918682 A>T, rs2146727 A>G), WFS1 (rs734312 A>G), PON1 (rs854560 T>A), IL1α (rs1800587 C>T) and IL1β (rs1143634 C>T). Genotyping was performed by DNA sequencing after nested polymerase chain reaction of targeted regions. Results indicated that rs7910977 in IDE showed significant association with the development of T2D [P = 0.012, OR 1.677 (95 % CI 1.112–2.438)]. The rs10918682 in POU2F1 was associated with T2D [P < 0.001, OR 3.606 (95 % CI 2.165–6.005)]. The rs854560 in PON1was associated with incidences of T2D and increased the risk of cardiovascular complications [P = 0.031, OR 0.663 (95 % CI 0.455–0.965)] in diabetics. The rs734312 from WFS1 gene was associated with diabetes at genotype level (P < 0.01). Haplotype analysis of rs1800587–rs1143634 depicted CC haplotype increased the susceptibility to diabetes (P < 0.05). Haplotype GAA from rs2146727–10918682–rs3767434 was protective against diabetes (P < 0.01) and GGA exhibited the association with T2D (P < 0.01). Haplotype CT from rs6583813–rs7910977 was protective against diabetes (P = 0.02). Our study provided evidence to IDE, PON1, WFS1, POU2F1, IL1α and IL1β associated with T2D in Pakistanis.     

Gender dimorphism in aspartame-induced impairment of spatial cognition and insulin sensitivity

Previous studies have linked aspartame consumption to impaired retention of learned behavior in rodents. Prenatal exposure to aspartame has also been shown to impair odor-associative learning in guinea pigs; and recently, aspartame-fed hyperlipidemic zebrafish exhibited weight gain, hyperglycemia and acute swimming defects. We therefore investigated the effects of chronic lifetime exposure to aspartame, commencing in utero, on changes in blood glucose parameters, spatial learning and memory in C57BL/6J mice. Morris Water Maze (MWM) testing was used to assess learning and memory, and a random-fed insulin tolerance test was performed to assess glucose homeostasis. Pearson correlation analysis was used to investigate the associations between body characteristics and MWM performance outcome variables. At 17 weeks of age, male aspartame-fed mice exhibited weight gain, elevated fasting glucose levels and decreased insulin sensitivity compared to controls (P<0.05). Females were less affected, but had significantly raised fasting glucose levels. During spatial learning trials in the MWM (acquisition training), the escape latencies of male aspartame-fed mice were consistently higher than controls, indicative of learning impairment. Thigmotactic behavior and time spent floating directionless was increased in aspartame mice, who also spent less time searching in the target quadrant of the maze (P<0.05). Spatial learning of female aspartame-fed mice was not significantly different from controls. Reference memory during a probe test was affected in both genders, with the aspartame-fed mice spending significantly less time searching for the former location of the platform. Interestingly, the extent of visceral fat deposition correlated positively with non-spatial search strategies such as floating and thigmotaxis, and negatively with time spent in the target quadrant and swimming across the location of the escape platform. These data suggest that lifetime exposure to aspartame, commencing in utero, may affect spatial cognition and glucose homeostasis in C57BL/6J mice, particularly in males.