MicroRNA mediated regulation of gene expression in response to heavy metals in plants

Journal of Plant Biochemistry and Biotechnology - Plants being sessile organisms are exposed to innumerable abiotic and biotic stresses on a daily basis. Heavy metal toxicity in plants results in...     

An Hsp27-related, dominant-negative-acting intracellular estradiol-binding protein

New World primates (NWPs) exhibit a compensated form of resistance to gonadal steroid hormones. We demonstrated recently that estrogen resistance in NWP cells was associated with the overexpression of two proteins, a nonreceptor-related, dominant-negative-acting estrogen response element (ERE)-binding protein (ERE-BP) and an intracellular estradiol-binding protein (IEBP). Based on the N-terminal sequences of tryptic fragments of IEBP isolated from a 17beta-estradiol (E2) affinity column we cloned a full-length cDNA for IEBP from the estrogen-resistant NWP cell line, B95-8. Subsequent sequence analysis revealed 87% sequence identity between the deduced peptide for IEBP and human Hsp27. When hormone-responsive, wild-type Old World primate (OWP) cells were transiently transfected with IEBP cDNA, E2-directed ERE reporter luciferase activity was reduced by 50% compared with vector only-transfected OWP cells (p < 0.0018). When IEBP and ERE-BP were cotransfected, ERE promoter-reporter activity was reduced by a further 60% (p < 0.0001). Electrophoresis mobility shift analyses showed that IEBP neither bound to ERE nor competed with the estrogen receptor (ER) for binding to ERE. However, there was evidence of protein-protein interaction of IEBP and ERalpha; IEBP was coimmunoprecipitated with anti-ERalpha antibody in wild-type cells stably transfected with IEBP. A specific interaction between ERalpha and IEBP was confirmed in glutathione S-transferase pull-down and yeast two-hybrid assays. Data indicate that the Hsp27-related IEBP interacts with the ligand binding domain of the ERalpha. In summary, by inhibiting the ERalpha-E2 interaction, IEBP acts to squelch ERalpha-directed ERE-regulated transactivation and promote estrogen resistance in NWP cells.     

Negative inotropic response to cerium in ventricular papillary muscle is mediated by reactive oxygen species

This study was performed with the objective of assessing the mechanical response of the myocardium to different levels of cerium and delineation of the mechanism underlying the mediation of the functional changes. Rat ventricular papillary muscle was used as the experimental model. Isolated papillary muscles were exposed to different concentrations of CeCl₃ and the force of contraction was measured using a force transducer. Experiments have revealed that the negative inotropic response to CeCl₃ was proportional to its concentration. The inotropic changes were found to be completely reversible at concentrations ≤5μM, and partially reversible at higher concentrations. Neutralization of cerium-induced inotropic changes by the superoxide anion scavenger superoxide dismutase (SOD) at concentrations ≤5 μM indicates that the mechanical changes are mediated by reactive oxygen species. At higher concentrations of Ce³⁺, SOD partially reversed the contractile changes. The beneficial effect of SOD was seen only if the muscles were pretreated with the scavenger prior to the addition of cerium chloride.     

Molecular dissection of the functional domains of a unique, tartrate-resistant, surface membrane acid phosphatase in the primitive human pathogen Leishmania donovani

The primitive trypanosomatid pathogen of humans, Leishmania donovani, constitutively expresses a unique externally oriented, tartrate-resistant, acid phosphatase on its surface membrane. This is of interest because these organisms are obligate intracellular protozoan parasites that reside and multiply within the hydrolytic milieu of mammalian macrophage phago-lysosomes. Here we report the identification of the gene encoding this novel L. donovani enzyme. In addition, we characterized its structure, demonstrated its constitutive expression in both parasite developmental forms, and determined the cell surface membrane localization of its translated protein product. Further, we used a variety of green fluorescent protein chimeric constructs as reporters in a homologous leishmanial expression system to dissect the functional domains of this unique, tartrate-resistant, surface membrane enzyme.     

Expression of Hb β-T and Hb β-E genes in Eastern India—Family studies

The distribution patterns of different haemoglobins were observed amongst the family members of β-thalassaemia homozygous and HbE-β-thalassaemia patients with the aid of gel electrophoretic and alkali denaturation techniques. Of the 18 families studied, four belonged to β-thalassaemia homozygous and 14 to HbE-β-thalassaemia patients. Interaction of HbE and β-thalassaemia genes resulted in major clinical abnormalities with increase in the percentages of haemoglobins F and E. The percentages of HbA₂ in homozygous β-thalassaemia were within the normal range. Although in Southeast Asia the β° type of HbE-thalassaemia is more prevalent, only one individual with this type of thalassaemia was observed during this survey. In the rest of the patients examined the percentages of adult haemoglobin ranged from 5.2 to 42.5 indicating the presence of a β⁺ type gene.     

Different strategies to overcome multidrug resistance in cancer

The risk of acquisition of resistance to chemotherapy remains a major hurdle in the management of various types of cancer patients. Several cellular and noncellular mechanisms are involved in developing both intrinsic and acquired resistance in cancer cells toward chemotherapy. This review covers the various multidrug resistance (MDR) mechanisms observed in cancer cells as well as the various strategies developed to overcome these MDR mechanisms. Extensive studies have been conducted during the last several decades to enhance the efficacy of chemotherapy by suppressing or evading these MDR mechanisms including the use of new anticancer drugs that could escape from the efflux reaction, MDR modulators or chemosensitizers, multifunctional nanocarriers, and RNA interference (RNAi) therapy.     

EHD4 and CDH23 Are Interacting Partners in Cochlear Hair Cells

Cadherin 23 (CDH23), a transmembrane protein localized near the tips of hair cell stereocilia in the mammalian inner ear, is important for delivering mechanical signals to the mechano-electric transducer channels. To identify CDH23-interacting proteins, a membrane-based yeast two-hybrid screen of an outer hair cell (OHC) cDNA library was performed. EHD4, a member of the C-terminal EH domain containing a protein family involved in endocytic recycling, was identified as a potential interactor. To confirm the interaction, we first demonstrated the EHD4 mRNA expression in hair cells using in situ hybridization. Next, we showed that EHD4 co-localizes and co-immunoprecipitates with CDH23 in mammalian cells. Interestingly, the co-immunoprecipitation was found to be calcium-sensitive. To investigate the role of EHD4 in hearing, compound action potentials were measured in EHD4 knock-out (KO) mice. Although EHD4 KO mice have normal hearing sensitivity, analysis of mouse cochlear lysates revealed a 2-fold increase in EHD1, but no increase in EHD2 or EHD3, in EHD4 KO cochleae compared with wild type, suggesting that a compensatory increase in EHD1 levels may account for the absence of a hearing defect in EHD4 KO mice. Taken together, these data indicate that EHD4 is a novel CDH23-interacting protein that could regulate CDH23 trafficking/localization in a calcium-sensitive manner.Hair cells located in the mammalian inner ear transform mechanical stimuli into electrical signals that in turn facilitate neurotransmitter release onto auditory neurons. The key element in the transduction process is the mechano-electric transducer (MET)² apparatus located near the top of the stereocilium. CDH23 is a single pass transmembrane protein with 27 extracellular cadherin repeats. It is one of the components of the tip-link (1, 2), which connects the top of a shorter stereocilium to the side of its taller neighbor (3). Vibrations of the basilar membrane of the inner ear ultimately result in deflection of the hair bundles, which modulates tension on the tip-link, thereby controlling the opening probability of cation-selective MET channels (3, 4). Cations, principally K⁺ and Ca²⁺, flow through the MET channels and ultimately change the membrane potential. A mutation in the gene encoding CDH23, the Usher syndrome type 1D factor (USH1D), causes deaf-blindness in humans (5). Several interacting partners of CDH23 have been reported and include another tip-link protein protocadherin 15 (6), a multi-PDZ domain-containing scaffold protein harmonin (7) and a stereociliary scaffolding protein MAGI-1 (8). Protocadherin 15 binds to CDH23 through its extracellular domains (6), whereas the cytoplasmic region of CDH23 interacts with MAGI-1 and harmonin through its PDZ domain-binding interfaces (PBI). Harmonin also associates with other USH1 factors like myosin VIIa, protocadherin 15, and sans (9). These findings indicate that harmonin bridges CDH23 to the cytoskeletal actin core of the stereocilium and is probably essential for the developmental differentiation of stereocilia (10–12). However, it is currently unknown how CDH23 is transported to the tip of stereocilia. To search for additional interacting partners of CDH23, we performed a membrane-based yeast two-hybrid assay, which identified EHD4 as a potential binding partner (13).EHD4 belongs to an evolutionarily conserved EH (Eps 15 homology) domain-containing protein family involved in endocytic trafficking and recycling. Four highly homologous members of this family, EHD1–4, are expressed in mammalian cells. They contain a single C-terminal EH domain, an N-terminal nucleotide-binding loop and a coiled-coil region responsible for oligomerization (14–16). Of the four EHD proteins EHD1 is the best characterized and is involved in regulating the recycling of membrane receptors including the transferrin receptor and the major histocompatibility complex class I (17, 18). EHD1 is also involved in controlling cholesterol recycling and homeostasis (19) and in facilitating endosome to Golgi retrieval (20). EHD3 appears to regulate receptor movements from the early endosome (EE) to the endocytic recycling compartment (ERC) and Golgi (21, 22). EHD2 was isolated from GLUT4-enriched fractions of adipocytes and was shown to regulate insulin-mediated translocation of GLUT4 to the plasma membrane (23, 24). Additionally, EHD2 is involved in the regulation of transferrin receptor internalization (23), recycling (25), and actin cytoskeleton rearrangement (23). EHD4, also called Pincher, was first reported as an extracellular matrix protein (26). Subsequent studies have shown this intracellular protein to be involved in the regulation of neurotrophin receptor TrkA endocytosis in pheochromocytoma (PC12) cells (27). It is also involved in interactions with the cell fate determinant, NUMB, and co-localizes with the small GTP-binding protein, Arf6 (28). Recently, Sharma et al. (29) showed that EHD4 regulates the exit of endocytic cargo from the early endosome toward both the recycling compartment and the late endocytic pathway. They also indicated that EHD4 and EHD1 interact transiently as most of the EHD4 resides on peripheral early endosomes, while EHD1 resides primarily on tubular recycling compartments. This partial overlap/association might be necessary for the transport of proteins through the early endosome to the ERC. Previously, George et al. (25) had also demonstrated that EHD4 interacts with EHD1 and its paralogs, which suggests cooperation and partial overlap of function between EHD4 and EHD1.Unlike other CDH23-binding proteins, EHD4 does not contain a PDZ domain that could bind to the PBI located in the cytoplasmic tail of CDH23. In addition, the cytoplasmic tail of CDH23 lacks an Asn-Pro-Phe (NPF) motif that could mediate an interaction with the EH domain of EHD4. Therefore, we proceeded to characterize the authenticity of interaction between EHD4 and CDH23 identified in yeast and mammalian cells, using both in vitro and in vivo methods. We verified the expression of EHD4 mRNA in mouse cochlea and investigated the physiological role of EHD4 protein in the cochlea using EHD4-KO mice.     

O2 uptake through water during early life of Heteropneustes fossilis (Bloch)

The O₂ uptake through water has been measured in case of Heteropneustes fossilis during development and growth and its relationship to body size established. A higher rate of O₂ uptake during the early phase of ontogenesis is related to intense growth of the respiratory surface area and increasing metabolic demand of the fish.The logarithmic plot of data for O₂ uptake in relation to body size shows a statistically significant two-component curve; one related to the fish when it is a fully aquatic breather and the other when it changes to bimodal gas exchange. The onset of the air breathing habit brings about a 40% drop in O₂ uptake through water, which is made good through the newly developed air breathing organ.