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  • Cyclic mechanical strain maintains Nanog expression through PI3K/Akt signaling in mouse embryonic stem cells. 22683858

    Mechanical strain has been reported to affect the proliferation/differentiation of many cell types; however, the effects of mechanotransduction on self-renewal as well as pluripotency of embryonic stem (ES) cells remains unknown. To investigate the effects of mechanical strain on mouse ES cell fate, we examined the expression of Nanog, which is an essential regulator of self-renewal and pluripotency as well as Nanog-associated intracellular signaling during uniaxial cyclic mechanical strain. The mouse ES cell line, CCE was plated onto elastic membranes, and we applied 10% strain at 0.17Hz. The expression of Nanog was reduced during ES cell differentiation in response to the withdrawal of leukemia inhibitory factor (LIF); however, two days of cyclic mechanical strain attenuated this reduction of Nanog expression. On the other hand, the cyclic mechanical strain promoted PI3K-Akt signaling, which is reported as an upstream of Nanog transcription. The cyclic mechanical strain-induced Akt phosphorylation was blunted by the PI3K inhibitor wortmannin. Furthermore, cytochalasin D, an inhibitor of actin polymerization, also inhibited the mechanical strain-induced increase in phospho-Akt. These findings imply that mechanical force plays a role in regulating Nanog expression in ES cells through the actin cytoskeleton-PI3K-Akt signaling.
    Tipo de documento:
    Referencia
    Referencia del producto:
    MAB374
    Nombre del producto:
    Anti-Glyceraldehyde-3-Phosphate Dehydrogenase Antibody, clone 6C5

  • Nuclear-targeting of mutant huntingtin fragments produces Huntington's disease-like phenotypes in transgenic mice. 15190011

    Huntington's disease (HD) results from the expansion of a glutamine repeat near the N-terminus of huntingtin (htt). At post-mortem, neurons in the central nervous system of patients have been found to accumulate N-terminal fragments of mutant htt in nuclear and cytoplasmic inclusions. This pathology has been reproduced in transgenic mice expressing the first 171 amino acids of htt with 82 glutamines along with losses of motoric function, hypoactivity and abbreviated life-span. The relative contributions of nuclear versus cytoplasmic mutant htt to the pathogenesis of disease have not been clarified. To examine whether pathogenic processes in the nucleus disproportionately contribute to disease features in vivo, we fused a nuclear localization signal (NLS) derived from atrophin-1 to the N-terminus of an N171-82Q construct. Two lines of mice (lines 8A and 61) that were identified expressed NLS-N171-82Q at comparable levels and developed phenotypes identical to our previously described HD-N171-82Q mice. Western blot and immunohistochemical analyses revealed that NLS-N171-82Q fragments accumulate in nuclear, but not cytoplasmic, compartments. These data suggest that disruption of nuclear processes may account for many of the disease phenotypes displayed in the mouse models generated by expressing mutant N-terminal fragments of htt.
    Tipo de documento:
    Referencia
    Referencia del producto:
    MAB5374
    Nombre del producto:
    Anti-Huntingtin Protein Antibody, clone mEM48

  • Differential recruitment of glucocorticoid receptor phospho-isoforms to glucocorticoid-induced genes. 18304804

    The human glucocorticoid receptor (GR) is phosphorylated on its N-terminus at three major sites (S203, S211 and S226) within activation function 1 (AF1). Although GR has been shown to assemble at glucocorticoid responsive elements (GREs) in the presence of hormone, the timing and specificity of GR phospho-isoform recruitment to receptor target genes has not been established. Using chromatin immunoprecipitation (ChIP) and GR phosphorylation site-specific antibodies, we examined GR phospho-isoform recruitment to several glucocorticoid-induced genes including tyrosine aminotransferase (tat) and sulfonyltransferase-1A1 (sult) in rat hepatoma cells, and the glucocorticoid-induced leucine zipper (gilz) gene in human U2OS cells. GR P-S211 and GR P-S226 isoforms were efficiently recruited to the tat, sult and gilz GREs in a hormone-dependent manner. In contrast, the GR P-S203 isoform displayed no significant recruitment to any GREs of the genes analyzed, consistent with its lack of nuclear accumulation. Interestingly, the kinetics of GR P-S211 and GR P-S226 recruitment differed among genes. Our findings indicate that GR phospho-isoforms selectively occupy GR target genes, and suggests gene specific requirements for GR phosphorylation in receptor-dependent transcriptional activation.
    Tipo de documento:
    Referencia
    Referencia del producto:
    ABS994
    Nombre del producto:
    Anti-phospho-Glucocorticoid receptor Antibody, Ser226

  • Glucocorticoid receptor phosphorylation differentially affects target gene expression. 18483179

    The glucocorticoid receptor (GR) is phosphorylated at multiple sites within its N terminus (S203, S211, S226), yet the role of phosphorylation in receptor function is not understood. Using a range of agonists and GR phosphorylation site-specific antibodies, we demonstrated that GR transcriptional activation is greatest when the relative phosphorylation of S211 exceeds that of S226. Consistent with this finding, a replacement of S226 with an alanine enhances GR transcriptional response. Using a battery of compounds that perturb different signaling pathways, we found that BAPTA-AM, a chelator of intracellular divalent cations, and curcumin, a natural product with antiinflammatory properties, reduced hormone-dependent phosphorylation at S211. This change in GR phosphorylation was associated with its decreased nuclear retention and transcriptional activation. Molecular modeling suggests that GR S211 phosphorylation promotes a conformational change, which exposes a novel surface potentially facilitating cofactor interaction. Indeed, S211 phosphorylation enhances GR interaction with MED14 (vitamin D receptor interacting protein 150). Interestingly, in U2OS cells expressing a nonphosphorylated GR mutant S211A, the expression of IGF-binding protein 1 and interferon regulatory factor 8, both MED14-dependent GR target genes, was reduced relative to cells expressing wild-type receptor across a broad range of hormone concentrations. In contrast, the induction of glucocorticoid-induced leucine zipper, a MED14-independent GR target, was similar in S211A- and wild-type GR-expressing cells at high hormone levels, but was reduced in S211A cells at low hormone concentrations, suggesting a link between GR phosphorylation, MED14 involvement, and receptor occupancy. Phosphorylation also affected the magnitude of repression by GR in a gene-selective manner. Thus, GR phosphorylation at S211 and S226 determines GR transcriptional response by modifying cofactor interaction. Furthermore, the effect of GR S211 phosphorylation is gene specific and, in some cases, dependent upon the amount of activated receptor.
    Tipo de documento:
    Referencia
    Referencia del producto:
    ABS994
    Nombre del producto:
    Anti-phospho-Glucocorticoid receptor Antibody, Ser226

  • Expression and functional analysis of the plant-specific histone deacetylase HDT701 in rice. 25653654

    Reversible histone acetylation and deacetylation at the N-terminus of histone tails play a crucial role in regulating eukaryotic gene activity. Acetylation of core histones is associated with gene activation, whereas deacetylation of histone is often correlated with gene repression. The level of histone acetylation is antagonistically catalyzed by histone acetyltransferases citation(HATs) and histone deacetylases (HDACs). In this work, we examined the subcellular localization, expression pattern and function of HDT701, a member of the plant-specific HD2-type histone deacetylase in rice. HDT701 is localized at the subcellular level in the nucleus. Histochemical GUS-staining analysis revealed that HDT701 is constitutively expressed throughout the life cycle of rice. Overexpression of HDT701 in rice decreases ABA, salt and osmotic stress resistance during seed germination. Delayed seed germination of HDT701 overexpression lines is associated with decreased histone H4 acetylation and down-regulated expression of GA biosynthetic genes. Moreover, overexpression of HDT701 in rice enhances salt and osmotic stress resistance during the seedling stage. Taken together, our findings suggested that HDT701 may play an important role in regulating seed germination in response to abiotic stresses in rice.
    Tipo de documento:
    Referencia
    Referencia del producto:
    06-866
    Nombre del producto:
    Anti-acetyl-Histone H4 Antibody

  • Changes in the structure and function of the human thrombin receptor during receptor activation, internalization, and recycling. 7507931

    According to current models, human thrombin receptors are activated when thrombin cleaves the receptor's N terminus, exposing the tethered ligand domain, SFLLRN. In the megakaryoblastic CHRF-288 cell line, thrombin receptor activation is followed by the rapid internalization of > 90% of the receptors. In the present studies, antibodies directed at the site of cleavage by thrombin were used to examine changes in receptor structure during activation, internalization, and recovery. As would be expected, the initial rate of receptor cleavage was directly related to the thrombin concentration. However, even after prolonged incubation, receptor cleavage was incomplete until the thrombin concentration exceeded the receptor concentration. Only cleaved receptors were internalized in response to thrombin and only catalytically active thrombin and active variants of SFLLRN-containing peptides caused receptor internalization. Over a 3-h period following receptor activation by thrombin, there was a gradual recovery of approximately one-quarter of the receptors on the cell surface. These receptors were detectable with antibodies directed at retained portions of the receptor N terminus, but not with antibodies directed at the proposed site of cleavage, confirming that they are recycled, rather than new, receptors. At 4 degrees C two-thirds of the receptors cleaved by thrombin were retained on the cell surface. Like recycled receptors these "cold-cleaved" receptors failed to self-activate when warmed to 37 degrees C, but could be activated by SFLLRN. Unlike recycled receptors, however, the cold-cleaved receptors were also internalized and appeared to be activated by a second addition of thrombin. These results 1) provide strong evidence at the protein level that thrombin cleaves its receptors at the predicted site, 2) show that receptor activation is necessary for internalization, 3) suggest that each thrombin molecule may not activate large numbers of receptors, 4) demonstrate that a substantial fraction of internalized thrombin receptors can be recycled, and 5) suggest that the failure of recycled receptors to be reactivated by thrombin may involve a change in the receptor that does not occur at 4 degrees C. Finally, the inability of cold-cleaved receptors to self activate in the absence of thrombin, suggests that in addition to cleaving the receptor, thrombin may also play an important role in guiding the tethered ligand domain to regions on the remainder of the receptor that mediate activation.
    Tipo de documento:
    Referencia
    Referencia del producto:
    MABF244
    Nombre del producto:
    Anti-PAR-1, clone ATAP2 Antibody

  • Wild-type huntingtin protects from apoptosis upstream of caspase-3. 10804212

    Expansion of a polyglutamine sequence in the N terminus of huntingtin is the gain-of-function event that causes Huntington's disease. This mutation affects primarily the medium-size spiny neurons of the striatum. Huntingtin is expressed in many neuronal and non-neuronal cell types, implying a more general function for the wild-type protein. Here we report that wild-type huntingtin acts by protecting CNS cells from a variety of apoptotic stimuli, including serum withdrawal, death receptors, and pro-apoptotic Bcl-2 homologs. This protection may take place at the level of caspase-9 activation. The full-length protein also modulates the toxicity of the poly-Q expansion. Cells expressing full-length mutant protein are susceptible to fewer death stimuli than cells expressing truncated mutant huntingtin.
    Tipo de documento:
    Referencia
    Referencia del producto:
    MAB2166
    Nombre del producto:
    Anti-Huntingtin Protein Antibody, a.a. 181-810, clone 1HU-4C8

  • Native mutant huntingtin in human brain: evidence for prevalence of full-length monomer. 22375012

    Huntington disease (HD) is caused by polyglutamine expansion in the N terminus of huntingtin (htt). Analysis of human postmortem brain lysates by SDS-PAGE and Western blot reveals htt as full-length and fragmented. Here we used Blue Native PAGE (BNP) and Western blots to study native htt in human postmortem brain. Antisera against htt detected a single band broadly migrating at 575-850 kDa in control brain and at 650-885 kDa in heterozygous and Venezuelan homozygous HD brains. Anti-polyglutamine antisera detected full-length mutant htt in HD brain. There was little htt cleavage even if lysates were pretreated with trypsin, indicating a property of native htt to resist protease cleavage. A soluble mutant htt fragment of about 180 kDa was detected with anti-htt antibody Ab1 (htt-(1-17)) and increased when lysates were treated with denaturants (SDS, 8 M urea, DTT, or trypsin) before BNP. Wild-type htt was more resistant to denaturants. Based on migration of in vitro translated htt fragments, the 180-kDa segment terminated ≈htt 670-880 amino acids. If second dimension SDS-PAGE followed BNP, the 180-kDa mutant htt was absent, and 43-50 kDa htt fragments appeared. Brain lysates from two HD mouse models expressed native full-length htt; a mutant fragment formed if lysates were pretreated with 8 M urea + DTT. Native full-length mutant htt in embryonic HD(140Q/140Q) mouse primary neurons was intact during cell death and when cell lysates were exposed to denaturants before BNP. Thus, native mutant htt occurs in brain and primary neurons as a soluble full-length monomer.
    Tipo de documento:
    Referencia
    Referencia del producto:
    MAB5490
    Nombre del producto:
    Anti-Huntingtin Antibody, a.a. 115-129

  • Mechanisms of copper ion mediated Huntington's disease progression. 17396163

    Huntington's disease (HD) is caused by a dominant polyglutamine expansion within the N-terminus of huntingtin protein and results in oxidative stress, energetic insufficiency and striatal degeneration. Copper and iron are increased in the striata of HD patients, but the role of these metals in HD pathogenesis is unknown. We found, using inductively-coupled-plasma mass spectroscopy, that elevations of copper and iron found in human HD brain are reiterated in the brains of affected HD transgenic mice. Increased brain copper correlated with decreased levels of the copper export protein, amyloid precursor protein. We hypothesized that increased amounts of copper bound to low affinity sites could contribute to pro-oxidant activities and neurodegeneration. We focused on two proteins: huntingtin, because of its centrality to HD, and lactate dehydrogenase (LDH), because of its documented sensitivity to copper, necessity for normoxic brain energy metabolism and evidence for altered lactate metabolism in HD brain. The first 171 amino acids of wild-type huntingtin, and its glutamine expanded mutant form, interacted with copper, but not iron. N171 reduced Cu(2+)in vitro in a 1:1 copper:protein stoichiometry indicating that this fragment is very redox active. Further, copper promoted and metal chelation inhibited aggregation of cell-free huntingtin. We found decreased LDH activity, but not protein, and increased lactate levels in HD transgenic mouse brain. The LDH inhibitor oxamate resulted in neurodegeneration when delivered intra-striatially to healthy mice, indicating that LDH inhibition is relevant to neurodegeneration in HD. Our findings support a role of pro-oxidant copper-protein interactions in HD progression and offer a novel target for pharmacotherapeutics.
    Tipo de documento:
    Referencia
    Referencia del producto:
    MAB348
    Nombre del producto:
    Anti-APP A4 Antibody, a.a. 66-81 of APP {NT}, clone 22C11

  • Polyubiquitin linkage profiles in three models of proteolytic stress suggest the etiology of Alzheimer disease. 21278249

    Polyubiquitin chains on substrates are assembled through any of seven lysine residues or the N terminus of ubiquitin (Ub), generating diverse linkages in the chain structure. PolyUb linkages regulate the fate of modified substrates, but their abundance and function in mammalian cells are not well studied. We present a mass spectrometry-based method to measure polyUb linkages directly from total lysate of mammalian cells. In HEK293 cells, the level of polyUb linkages was found to be 52% (Lys(48)), 38% (Lys(63)), 8% (Lys(29)), 2% (Lys(11)), and 0.5% or less for linear, Lys(6), Lys(27), and Lys(33) linkages. Tissue specificity of these linkages was examined in mice fully labeled by heavy stable isotopes (i.e. SILAC mice). Moreover, we profiled the Ub linkages in brain tissues from patients of Alzheimer disease with or without concurrent Lewy body disease as well as three cellular models of proteolytic stress: proteasome deficiency, lysosome deficiency, and heat shock. The data support that polyUb chains linked through Lys(6), Lys(11), Lys(27), Lys(29), and Lys(48) mediate proteasomal degradation, whereas Lys(63) chains are preferentially involved in the lysosomal pathway. Mixed linkages, including Lys(48), may also contribute to lysosomal targeting, as both Lys(63) and Lys(48) linkages are colocalized in LC3-labeled autophagosomes. Interestingly, heat shock treatment augments Lys(11), Lys(48), and Lys(63) but not Lys(29) linkages, and this unique pattern is similar to that in the profiled neurodegenerative cases. We conclude that different polyUb linkages play distinct roles under the three proteolytic stress conditions, and protein folding capacity in the heat shock responsive pathway might be more affected in Alzheimer disease.
    Tipo de documento:
    Referencia
    Referencia del producto:
    MAB1510