Millipore Sigma Vibrant Logo
 

1.10962


43 Results Advanced Search  
Showing
Products (26)
Documents (17)
Site Content (0)

Narrow Your Results Use the filters below to refine your search

Document Type

  • (9)
  • (5)
  • (2)
  • (1)
Can't Find What You're Looking For?
Contact Customer Service

 

  • COA 110962

    Document Type:
    Certificate of Analysis
    Product Catalog Number:
    110962

  • Hepatitis B virus X protein induces lipogenic transcription factor SREBP1 and fatty acid synthase through the activation of nuclear receptor LXRalpha. 18782084

    HBV (hepatitis B virus) is a primary cause of chronic liver disease, which frequently results in hepatitis, cirrhosis and ultimately HCC (hepatocellular carcinoma). Recently, we showed that HBx (HBV protein X) expression induces lipid accumulation in hepatic cells mediated by the induction of SREBP1 (sterol-regulatory-element-binding protein 1), a key regulator of lipogenic genes in the liver. However, the molecular mechanisms by which HBx increases SREBP1 expression and transactivation remain to be clearly elucidated. In the present study, we demonstrated that HBx interacts with LXRalpha (liver X receptor alpha) and enhances the binding of LXRalpha to LXRE (LXR-response element), thereby resulting in the up-regulation of SREBP1 and FAS (fatty acid synthase) in the presence or absence of the LXR agonist T0901317 in the hepatic cells and HBx-transgenic mice. Furthermore, HBx also augments the ability to recruit ASC2 (activating signal co-integrator 2), a transcriptional co-activator that controls liver lipid metabolic pathways, to the LXRE with LXRalpha. These studies place LXRalpha in a key position within the HBx-induced lipogenic pathways, and suggest a molecular mechanism through which HBV infection can stimulate the SREBP1-mediated control of hepatic lipid accumulation.
    Document Type:
    Reference
    Product Catalog Number:
    MAB8419
    Product Catalog Name:
    Anti-Hepatitis B Virus Antibody, X-Protein, a.a. 90-115, clone 227

  • Human cytomegalovirus infection induces adipocyte-like lipogenesis through activation of sterol regulatory element binding protein 1. 22258239

    Sterol regulatory element binding proteins (SREBPs) are essential transcriptional factors that control expression of lipogenic genes and adipocyte differentiation. Human cytomegalovirus (HCMV) infection has been shown to require the induction of lipogenesis. Here we show that the induction of lipogenesis and expression of key lipogenic enzymes in human fibroblasts occurs by 24 h post-HCMV infection. This activation correlates with increased cleavage of the SREBP1 precursors to form the mature active transcription factors that enter the nucleus to transcriptionally activate lipogenic genes. SREBP1 cleavage is normally inhibited by increased sterol levels; however, our data show that this level of control is overridden in infected cells to allow constitutive activation of lipogenesis. This process requires viral protein synthesis, since UV-irradiated HCMV cannot activate SREBP cleavage. The cleavage of SREBP1 requires it to be in complex with SREBP cleavage activation protein (SCAP). Depleting SCAP using short hairpin RNA (shRNA) showed that SREBP1 cleavage and the induction of lipogenic genes and lipid synthesis are all inhibited in HCMV-infected cells. As a result, production of infectious virions is reduced in SCAP-depleted cells. Thus, the SCAP-mediated mechanism for SREBP cleavage is utilized by HCMV during infection. Our studies suggest that HCMV induces adipocyte-like lipogenesis and overrides normal sterol feedback controls in order to maintain high levels of constitutive lipid synthesis during infection.
    Document Type:
    Reference
    Product Catalog Number:
    MAB1501
    Product Catalog Name:
    Anti-Actin Antibody, clone C4

  • Endurance exercise training blunts the deleterious effect of high-fat feeding on whole body efficiency. 21632846

    We recently showed that a week-long, high-fat diet reduced whole body exercise efficiency in sedentary men by greater than 10% (Edwards LM, Murray AJ, Holloway CJ, Carter EE, Kemp GJ, Codreanu I, Brooker H, Tyler DJ, Robbins PA, Clarke K. FASEB J 25: 1088-1096, 2011). To test if a similar dietary regime would blunt whole body efficiency in endurance-trained men and, as a consequence, hinder aerobic exercise performance, 16 endurance-trained men were given a short-term, high-fat (70% kcal from fat) and a moderate carbohydrate (50% kcal from carbohydrate) diet, in random order. Efficiency was assessed during a standardized exercise task on a cycle ergometer, with aerobic performance assessed during a 1-h time trial and mitochondrial function later measured using (31)P-magnetic resonance spectroscopy. The subjects then underwent a 2-wk wash-out period, before the study was repeated with the diets crossed over. Muscle biopsies, for mitochondrial protein analysis, were taken at the start of the study and on the 5th day of each diet. Plasma fatty acids were 60% higher on the high-fat diet compared with moderate carbohydrate diet (P less than 0.05). However, there was no change in whole body efficiency and no change in mitochondrial function. Endurance exercise performance was significantly reduced (P less than 0.01), most probably due to glycogen depletion. Neither diet led to changes in citrate synthase, ATP synthase, or mitochondrial uncoupling protein 3. We conclude that prior exercise training blunts the deleterious effect of short-term, high-fat feeding on whole body efficiency.
    Document Type:
    Reference
    Product Catalog Number:
    AB3046
    Product Catalog Name:
    Anti-Uncoupling Protein 3 Antibody

  • Regulation of Wnt signaling by nociceptive input in animal models. 22713358

    Central sensitization-associated synaptic plasticity in the spinal cord dorsal horn (SCDH) critically contributes to the development of chronic pain, but understanding of the underlying molecular pathways is still incomplete. Emerging evidence suggests that Wnt signaling plays a crucial role in regulation of synaptic plasticity. Little is known about the potential function of the Wnt signaling cascades in chronic pain development.Fluorescent immunostaining results indicate that β-catenin, an essential protein in the canonical Wnt signaling pathway, is expressed in the superficial layers of the mouse SCDH with enrichment at synapses in lamina II. In addition, Wnt3a, a prototypic Wnt ligand that activates the canonical pathway, is also enriched in the superficial layers. Immunoblotting analysis indicates that both Wnt3a a β-catenin are up-regulated in the SCDH of various mouse pain models created by hind-paw injection of capsaicin, intrathecal (i.t.) injection of HIV-gp120 protein or spinal nerve ligation (SNL). Furthermore, Wnt5a, a prototypic Wnt ligand for non-canonical pathways, and its receptor Ror2 are also up-regulated in the SCDH of these models.Our results suggest that Wnt signaling pathways are regulated by nociceptive input. The activation of Wnt signaling may regulate the expression of spinal central sensitization during the development of acute and chronic pain.
    Document Type:
    Reference
    Product Catalog Number:
    Multiple
    Product Catalog Name:
    Multiple

  • MAVS protein is attenuated by rotavirus nonstructural protein 1. 24643253

    Rotavirus is the single, most important agent of infantile gastroenteritis in many animal species, including humans. In developing countries, rotavirus infection attributes approximately 500,000 deaths annually. Like other viruses it establishes an intimate and complex interaction with the host cell to counteract the antiviral responses elicited by the cell. Among various pattern recognition receptors (PAMPs) of the host, the cytosolic RNA helicases interact with viral RNA to activate the Mitochondrial Antiviral Signaling protein (MAVS), which regulates cellular interferon response. With an aim to identify the role of different PAMPs in rotavirus infected cell, MAVS was found to degrade in a time dependent and strain independent manner. Rotavirus non-structural protein 1 (NSP1) which is a known IFN antagonist, interacted with MAVS and degraded it in a strain independent manner, resulting in a complete loss of RNA sensing machinery in the infected cell. To best of our knowledge, this is the first report on NSP1 functionality where a signaling protein is targeted unanimously in all strains. In addition NSP1 inhibited the formation of detergent resistant MAVS aggregates, thereby averting the antiviral signaling cascade. The present study highlights the multifunctional role of rotavirus NSP1 and reinforces the fact that the virus orchestrates the cellular antiviral response to its own benefit by various back up strategies.
    Document Type:
    Reference
    Product Catalog Number:
    06-1096

  • Anti-IPS-1 - 2535806

    Document Type:
    Certificate of Analysis
    Lot Number:
    2535806
    Product Catalog Number:
    06-1096