EC:3.6.3.44 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.44 (P-glycoprotein)
13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The immunohistochemical detection of multidrug resistance (MDR1) gene products and their mRNA within brain tumor cells has already been described by Fojo et al. 1987. 63 specimens of astrocytomas and glioblastomas were analysed in the present study (Grading type 1 to 4) by means of the monoclonal antibody JSB1. The endothelial cells were positive only in astrocytic tumors with a grading of 1. Increasing tumor grading resulted in more positive immunological reactions in tumor cells. The most impressive reaction could be found in anaplastic astrocytoma and glioblastoma (G3 and G4). Overexpression of this P-glycoprotein, a plasma membrane component of a relative molecular mass of 170 kDa was not only found in tumor cells of anaplastic astrocytomas, but also in endothelial cells and some non-neoplastic brain diseases. Positive immunological reactions in protoplasmatic astrocytes could be demonstrated in cases of phenylketonuria (1/1), tuberculous leptomeningitis (2/2), SSPE (3/4), X-ray necrosis (1/1) and necrotizing viral encephalitis (1/4). According to this, it seems that astrocytes are able to express P-glycoprotein under the influence of some special metabolic conditions. This underlines the detoxicating function of reactive astrocytes within the total number of cells in the CNS.
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PMID:[Expression of P-glycoprotein as a multidrug resistance gene product in human reactive astrocytes and astrocytoma]. 794 20

In this work, we examined the ability of gp120, a human immunodeficiency virus-1 (HIV-1) viral envelope glycoprotein, to trigger the innate immune response in astrocytes, an HIV-1 brain cellular target, and we investigated the functional expression of the ATP-binding cassette membrane transporter P-glycoprotein (P-gp) in primary cultures of rat astrocytes treated with gp120 or cytokines [tumor necrosis factor-alpha (TNF-alpha), interleukin-1beta (IL-1beta), and IL-6]. Standard 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium and d-mannitol uptake assays confirmed that HIV-1(96ZM651) gp120 treatment did not alter cell viability or membrane permeability. Semiquantitative reverse-transcriptase polymerase chain reaction analysis and enzyme-linked immunosorbent assay demonstrated increased TNF-alpha, IL-1beta, and IL-6 mRNA and protein expression in cultures treated with HIV-1(96ZM651) gp120, suggesting in vitro activation of immune responses. Cytokine secretion was detected when CXCR4 but not CCR5 was inhibited with a specific antibody, implying that cytokine secretion is primarily mediated via CCR5 in astrocytes triggered with HIV-1(96ZM651) gp120. P-gp protein expression was increased in astrocyte cultures exposed to TNF-alpha (2.9-fold) or IL-1beta (1.6-fold) but was decreased profoundly in the presence of IL-6 (8.9-fold), suggesting that IL-6 is primarily involved in modulating P-gp expression. In parallel, after HIV-1(96ZM651) gp120 treatment, immunoblotting analysis showed a significant decrease in P-gp expression (4.7-fold). Furthermore, the accumulation of two P-gp substrates, digoxin and saquinavir (an HIV-1 protease inhibitor), was enhanced (1.5- to 1.8-fold) in HIV-1(96ZM651) gp120-treated astrocyte monolayers but was not altered by P-gp inhibitors [e.g., valspodar (PSC833) and elacridar (GF120918)], suggesting a loss of transport activity. Taken together, these data imply that HIV-1(96ZM651) gp120 or cytokine treatment modulate P-gp functional expression in astrocytes, which may lead to complex drug-transporter interactions during HIV-1 encephalitis-associated immune responses.
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PMID:HIV-1 viral envelope glycoprotein gp120 triggers an inflammatory response in cultured rat astrocytes and regulates the functional expression of P-glycoprotein. 1679 May 32

Most potent antiretroviral drugs (e.g., HIV-1 protease inhibitors) poorly penetrate the blood-brain barrier. Brain distribution can be limited by the efflux transporter, P-glycoprotein (P-gp). The ability of a novel drug delivery system (block co-polymer P85) that inhibits P-gp, to increase the efficacy of antiretroviral drugs in brain was examined using a severe combined immunodeficiency (SCID) mouse model of HIV-1 encephalitis (HIVE). Severe combined immunodeficiency mice inoculated with HIV-1 infected human monocyte-derived macrophages (MDM) into the basal ganglia were treated with P85, antiretroviral therapy (ART) (zidovudine, lamivudine and nelfinavir (NEL)), or P85 and ART. Mice were killed on days 7 and 14, and brains were evaluated for levels of viral infection. Antiviral effects of NEL, P85, or their combination were evaluated in vitro using HIV-1 infected MDM and showed antiretroviral effects of P85 alone. In SCID mice injected with virus-infected MDM, the combination of ART-P85 and ART alone showed a significant decrease of HIV-1 p24 expressing MDM (25% and 33% of controls, respectively) at day 7 while P85 alone group was not different from control. At day 14, all treatment groups showed a significant decrease in percentage of HIV-1 infected MDM as compared with control. P85 alone and combined ART-P85 groups showed the most significant reduction in percentage of HIV-1 p24 expressing MDM (8% to 22% of control) that were superior to the ART alone group (38% of control). Our findings indicate major antiretroviral effects of P85 and enhanced in vivo efficacy of antiretroviral drugs when combined with P85 in a SCID mouse model of HIVE.
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PMID:Novel delivery system enhances efficacy of antiretroviral therapy in animal model for HIV-1 encephalitis. 1706 48

Limited drug penetration is an obstacle that is often encountered in the treatment of CNS diseases including human immunodeficiency virus type-1 (HIV-1) encephalitis (HIVE). One mechanism that may contribute to this phenomenon is the expression of ATP-binding cassette (ABC) drug efflux transporters [i.e., P-glycoprotein (P-gp), Multidrug Resistance-Associated Proteins (MRP/Mrp), Breast Cancer Resistance Protein (BCRP; also known as ABCG2)] at the primary brain barrier sites (i.e., blood-brain barrier, blood-cerebrospinal fluid barrier). In addition, it has been recently proposed that glial cells may also contribute to the low accumulation and altered distribution of therapeutic compounds in the CNS by functioning as a "secondary barrier." In fact, a few studies have shown that ABC transporters are both expressed and functional in glial cells. Furthermore, commonly prescribed antiretroviral compounds (ARVs), particularly HIV-1 protease inhibitors, are substrates for many of these same transport proteins suggesting that ABC transporters in glial cells may contribute to the overall export of these drugs from the brain. HIV-1 infection is a chronic condition characterized by long-term exposure of brain cellular compartments to HIV-1 virions and soluble viral proteins. In addition, treatment of HIV-1 infection involves long-term administration of a multiplicity of ARVs (i.e., HAART regimens). Indeed, pathological factors associated with HIV-1 infection and/or pharmacological factors related to treatment may alter the expression of ABC transporters and lead to changes in CNS ARV uptake and/or distribution. This review summarizes recent knowledge in this area and emphasizes the role that glial ABC transporters may play in regulating ARV transport.
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PMID:Regulation of ABC membrane transporters in glial cells: relevance to the pharmacotherapy of brain HIV-1 infection. 1864 2

Neurotropic alphaviruses, which include western equine encephalitis virus (WEEV) and Fort Morgan virus, are mosquito-borne pathogens that infect the central nervous system causing acute and potentially fatal encephalitis. We previously reported a novel series of indole-2-carboxamides as alphavirus replication inhibitors, one of which conferred protection against neuroadapted Sindbis virus infection in mice. We describe here further development of this series, resulting in 10-fold improvement in potency in a WEEV replicon assay and up to 40-fold increases in half-lives in mouse liver microsomes. Using a rhodamine123 uptake assay in MDR1-MDCKII cells, we were able to identify structural modifications that markedly reduce recognition by P-glycoprotein, the key efflux transporter at the blood-brain barrier. In a preliminary mouse PK study, we were able to demonstrate that two new analogues could achieve higher and/or longer plasma drug exposures than our previous lead and that one compound achieved measurable drug levels in the brain.
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PMID:Optimization of novel indole-2-carboxamide inhibitors of neurotropic alphavirus replication. 2415 54

Toxoplasma gondii can cause parasitic encephalitis, a life-threatening infection that predominately occurs in immunocompromised individuals. T. gondii has the ability to invade the brain, but the mechanisms by which this parasite crosses the blood-brain-barrier (BBB) remain incompletely understood. The present study reports the changes associated with infection and replication of T. gondii within human brain microvascular endothelial cells (BMECs) in vitro. Our results indicated that exposure to T. gondii had an adverse impact on the function and integrity of the BMECs - through induction of cell cycle arrest, disruption of the BMEC barrier integrity, reduction of cellular viability and vitality, depolarization of the mitochondrial membrane potential, increase of the DNA fragmentation, and alteration of the expression of immune response and tight junction genes. The calcium channel/P-glycoprotein transporter inhibitor verapamil was effective in inhibiting T. gondii crossing the BMECs in a dose-dependent manner. The present study showed that T. gondii can compromise several functions of BMECs and demonstrated the ability of verapamil to inhibit T. gondii crossing of the BMECs in vitro.
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PMID:Effects of Toxoplasma gondii infection on the function and integrity of human cerebrovascular endothelial cells and the influence of verapamil treatment in vitro. 3259 40