Kedar Shrestha scite author profile

Native amiloride-sensitive Na ؉ channels exhibit a variety of biophysical properties, including variable sensitivities to amiloride, different ion selectivities, and diverse unitary conductances. The molecular basis of these differences has not been elucidated. We tested the hypothesis that co-expression of ␦-epithelial sodium channel (ENaC) underlies, at least in part, the multiplicity of amiloride-sensitive Na ؉ conductances in epithelial cells. For example, the ␦-subunit may form multimeric channels with ␣␤␥-ENaC. Reverse transcription-PCR revealed that ␦-ENaC is co-expressed with ␣␤␥-subunits in cultured human lung (H441 and A549), pancreatic (CFPAC), and colonic epithelial cells (Caco-2). Indirect immunofluorescence microscopy revealed that ␦-ENaC is co-expressed with ␣-, ␤-, and ␥-ENaC in H441 cells at the protein level. Measurement of current-voltage relationships revealed that the cation selectivity ratios for Na ؉ /Li ؉ /K ؉ /Cs ؉ /Ca 2؉ /Mg 2؉ , the apparent dissociation constant (K i ) for amiloride, and unitary conductances for ␦␣␤␥-ENaC differed from those of both ␣␤␥-and ␦␤␥-ENaC (n ‫؍‬ 6). The contribution of the ␦ subunit to P Li /P Na ratio and unitary Na ؉ conductance under bi-ionic conditions depended on the injected cRNA concentration. In addition, the EC 50 for proton activation, mean open and closed times, and the self-inhibition time of ␦␣␤␥-ENaC differed from those of ␣␤␥-and ␦␤␥-ENaC. Co-immunoprecipitation of ␦-ENaC with ␣-and ␥-subunits in H441 and transfected COS-7 cells suggests an interaction among these proteins. We, therefore, concluded that the interactions of ␦-ENaC with other subunits could account for heterogeneity of native epithelial channels.

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The 5′‐untranslated RNA of the human dhfr minor transcript alters transcription pre‐initiation complex assembly at the major (core) promoter

Blume

Meng

Shrestha

et al. 2002

J of Cellular Biochemistry

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The human dhfr minor transcript is distinguished from the predominant dhfr mRNA by an approximately 400 nucleotide extension of the 5'-untranslated region, which corresponds to the major (core) promoter DNA (its template). Based on its unusual sequence composition, we hypothesized that the minor transcript 5'-UTR might be capable of altering transcription pre-initiation complex assembly at the core promoter, through direct interactions of the RNA with specific regulatory polypeptides or the promoter DNA itself. We found that the minor transcript 5'-UTR selectively sequesters transcription factor Sp3, and to a lesser extent Sp1, preventing their binding to the dhfr core promoter. This allows a third putative transcriptional regulatory protein, which is relatively resistant to sequestration by the minor transcript RNA, the opportunity to bind the dhfr core promoter. The selective sequestration of Sp3 > Sp1 by the minor transcript 5'-UTR involves an altered conformation of the RNA, and a structural domain of the protein distinct from that required for binding to DNA. As a consequence, the minor transcript 5'-UTR inhibits transcription from the core promoter in vitro (in trans) in a concentration-dependent manner. These results suggest that the dhfr minor transcript may function in vivo (in cis) to regulate the transcriptional activity of the major (core) promoter.

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Triple helix formation by purine-rich oligonucleotides targeted to the human dihydrofolate reductase promoter

et al. 1992

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The ability of oligodeoxynucleotides to form specific triple helical structures with critical regulatory sequences in the human dihydrofolate reductase (DHFR) promoter was investigated. A battery of purine-rich oligonucleotides targeted to the two purine.pyrimidine strand biased regions near the DHFR transcription initiation site was developed. The stable triple helical structures formed by binding of the oligonucleotides to the native promoter double helix were dominated by G*G.C triplets, with interspersed C*C.G and A*A.T alignments. Mismatches between the oligonucleotide and the purine-rich strand of the target significantly destabilized third strand binding, and a G*A.T alignment was particularly unfavorable. Formation of a pur.pur.pyr triple helical structure results in a localized limitation of access to the native double helical DNA and produces sequence dependent conformational alterations extending several nucleotides beyond the triplex-duplex boundary. Although they differ only by the insertion of two A.T base pairs, the distal and proximal purine.pyrimidine regions can be targeted individually due to the high degree of sequence specificity of triple helical alignment. Triplex formation overlapping any of three consensus transcriptional regulatory elements and collectively covering 50% of the DHFR core promoter is now possible with this set of oligonucleotides.

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Interregulation of Proton-gated Na+ Channel 3 and Cystic Fibrosis Transmembrane Conductance Regulator

Shrestha

et al. 2006

Journal of Biological Chemistry

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Proton-gated Na؉ channels (ASIC) are new members of the epithelial sodium channel/degenerin gene family. ASIC3 mRNA has been detected in the homogenate of pulmonary tissues. However, whether ASIC3 is expressed in the apical membranes of lung epithelial cells and whether it regulates cystic fibrosis transmembrane conductance regulator (CFTR) function are not known at the present time. Using reverse transcription-PCR, we found that the ASIC3 mRNA was expressed in the human airway mucosal gland (Calu-3) and human airway epithelial (16HBE14o) cells. Indirect immunofluorescence microscopy revealed that ASIC3 was co-segregated with CFTR in the apical membranes of Calu-3 cells. Proton-gated, amiloride-sensitive short circuit Na ؉ currents were recorded across Calu-3 monolayers mounted in an Ussing chamber. In whole-cell patch clamp studies, activation of CFTR channels with cAMP reduced proton-gated Na ؉ current in Calu-3 cells from ؊154 ؎ 28 to ؊33 ؎ 16 pA (n ‫؍‬ 5, p < 0.05) at ؊100 mV. On the other hand, cAMP-activated CFTR activity was significantly inhibited following constitutive activation of putative ASIC3 at pH 6.0. Immunoassays showed that both ASIC3 and CFTR proteins were expressed and co-immunoprecipitated mutually in Calu-3 cells. Similar results were obtained in human embryonic kidney 293T cells following transient co-transfection of ASIC3 and CFTR. Our results indicate that putative CFTR and ASIC3 channels functionally interact with each other, possibly via an intermolecular association. Because acidic luminal fluid in the cystic fibrosis airway and lung tends to stimulate ASIC3 channel expression and activity, the interaction of ASIC3 and CFTR may contribute to defective salt and fluid transepithelial transport in the cystic fibrotic pulmonary system.

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Evidence for differential ribonucleoprotein complex assembly in vitro on the 5′-untranslated region of the human IGF-IR transcript

Meng

Snyder

Shrestha

et al. 2003

Molecular and Cellular Endocrinology

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Inhibition of tumorigenicity by the 5′-untranslated RNA of the human c-myc P0 transcript

Blume

Miller

Guarcello

et al. 2003

Experimental Cell Research

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IRES inhibition induces terminal differentiation and synchronized death in triple-negative breast cancer and glioblastoma cells

et al. 2016

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Internal ribosome entry site (IRES)-mediated translation is a specialized mode of protein synthesis which malignant cells depend on to survive adverse microenvironmental conditions. Our lab recently reported the identification of a group of compounds which selectively interfere with IRES-mediated translation, completely blocking de novo IGF1R synthesis, and differentially modulating synthesis of the two c-Myc isoforms. Here, we examine the phenotypic consequences of sustained IRES inhibition in human triple-negative breast carcinoma and glioblastoma cells. A sudden loss of viability affects the entire tumor cell population after ∼72-h continuous exposure to the lead compound. The extraordinarily steep dose-response relationship (Hill-Slope coefficients −15 to −35) and extensive physical connections established between the cells indicate that the cells respond to IRES inhibition collectively as a population rather than as individual cells. Prior to death, the treated cells exhibit prominent features of terminal differentiation, with marked gains in cytoskeletal organization, planar polarity, and formation of tight junctions or neuronal processes. In addition to IGF1R and Myc, specific changes in connexin 43, BiP, CHOP, p21, and p27 also correlate with phenotypic outcome. This unusual mode of tumor cell death is absolutely dependent on exceeding a critical threshold in cell density, suggesting that a quorum-sensing mechanism may be operative. Death of putative tumor stem cells visualized in situ helps to explain the inability of tumor cells to recover and repopulate once the compound is removed. Together, these findings support the concept that IRES-mediated translation is of fundamental importance to maintenance of the undifferentiated phenotype and survival of undifferentiated malignant cells.Electronic supplementary materialThe online version of this article (doi:10.1007/s13277-016-5161-4) contains supplementary material, which is available to authorized users.

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Oncogenes, Malignant Transformation, and Modern Medicine

Miller

Blume

Borst

et al. 1990

The American Journal of the Medical Sciences

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Kedar Shrestha

δ-Subunit Confers Novel Biophysical Features to αβγ-Human Epithelial Sodium Channel (ENaC) via a Physical Interaction

The 5′‐untranslated RNA of the human dhfr minor transcript alters transcription pre‐initiation complex assembly at the major (core) promoter

Triple helix formation by purine-rich oligonucleotides targeted to the human dihydrofolate reductase promoter

Interregulation of Proton-gated Na+ Channel 3 and Cystic Fibrosis Transmembrane Conductance Regulator

Evidence for differential ribonucleoprotein complex assembly in vitro on the 5′-untranslated region of the human IGF-IR transcript

Inhibition of tumorigenicity by the 5′-untranslated RNA of the human c-myc P0 transcript

IRES inhibition induces terminal differentiation and synchronized death in triple-negative breast cancer and glioblastoma cells

Oncogenes, Malignant Transformation, and Modern Medicine

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