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Biochemical Pharmacology
Pergamon
Biochemical Pharmacology

Pergamon

0006-2952

Biochemical Pharmacology/Journal Biochemical PharmacologySCIISTP
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    Serotonin transporter regulation by cholesterol-independent lipid signaling

    Deveau, Carmen M.Rodriguez, EricSchroering, AllenYamamoto, Bryan K....
    10页
    查看更多>>摘要:Serotonin neurotransmission is largely governed by the regulation of the serotonin transporter (SERT). SERT is modulated in part by cholesterol, but the role of cholesterol and lipid signaling intermediates in regulating SERT are unknown. Serotonergic neurons were treated with statins to decrease cholesterol and lipid signaling intermediates. Contrary to reported decreases in 5-HT uptake after cholesterol depletion, biochemical and imaging methods both showed that statins increased 5-HT uptake in a fluoxetine-dependent manner. Simvastatin lowered the Km without changing Vmax for 5-HT or SERT distribution to the plasma membrane. Cholesterol repletion did not block enhanced 5-HT uptake by simvastatin but the enhanced uptake was blocked by lipid isoprenylation intermediates farnesyl pyrophosphate and geranylgeranyl pyrophosphate. Blockade of geranylgeranylation alone without statins also enhanced 5-HT uptake. Overall, this study revealed a specific neuronal effect of statin drugs and identified lipid signaling through geranylgeranylation within the isoprenylation pathway regulates SERT in a cholesterol-independent manner.
      原文链接:
    • NSTL
    • Elsevier

    EP4 receptor agonist L-902688 augments cytotoxic activities of ibrutinib, idelalisib, and venetoclax against chronic lymphocytic leukemia cells

    Nabergoj, SanjaMarkovic, TijanaAvsec, DamjanGobec, Martina...
    14页
    查看更多>>摘要:Treatment of patients with relapsed or refractory chronic lymphocytic leukemia (CLL) has significantly improved more recently with the approval of several new agents, including ibrutinib, idelalisib, and venetoclax. Despite the outstanding efficacies observed with these agents, these treatments are sometimes discontinued due to toxicity, unresponsiveness, transformation of the disease and/or resistance. Constitutive NF-kappa B activation that protects CLL cells from apoptotic stimuli represents one of molecular mechanisms that underlie the emergence of drug resistance. As prostaglandin E (EP)4 receptor agonists have been shown to successfully inhibit the NF-kappa B pathway in B-cell lymphoma cells, we investigated the potential of the highly specific EP4 receptor agonist L-902688 for the potential treatment of patients with CLL. We show here that low micromolar concentrations of L-902688 can indeed induce selective cytotoxicity towards several B-cell malignancies, including CLL. Moreover, L-902688-mediated activation of the EP4 receptor in patient derived CLL cells resulted in inhibition of the NF-kappa B pathway, cell proliferation, and induction of apoptosis. Most importantly, we show for the first time that in combination with ibrutinib, idelalisib, or venetoclax, L-902688 induces synergistic cytotoxic activity against patient derived CLL cells. To conclude, the modulation of NF-kappa B activity by EP4 receptor agonists represents an innovative approach to improve the treatment of patients with CLL. In particular, EP4 receptor agonists appear to represent promising adjuncts to the already existing therapies for patients with CLL due to these promising synergistic activities.
      原文链接:
    • NSTL
    • Elsevier

    Repurposing existing drugs for the treatment of COVID-19/SARS-CoV-2 infection: A review describing drug mechanisms of action

    Yousefi, HassanMashouri, LadanOkpechi, Samuel C.Alahari, Nikhilesh...
    14页
    查看更多>>摘要:The outbreak of a novel coronavirus (SARS-CoV-2) has caused a major public health concern across the globe. SARS-CoV-2 is the seventh coronavirus that is known to cause human disease. As of September 2020, SARS-CoV-2 has been reported in 213 countries and more than 31 million cases have been confirmed, with an estimated mortality rate of similar to 3%. Unfortunately, a drug or vaccine is yet to be discovered to treat COVID-19. Thus, repurposing of existing cancer drugs will be a novel approach in treating COVID-19 patients. These drugs target viral replication cycle, viral entry and translocation to the nucleus. Some can enhance innate antiviral immune response as well. Hence this review focuses on comprehensive list of 22 drugs that work against COVID-19 infection. These drugs include fingolimod, colchicine, N4-hydroxycytidine, remdesivir, methylprednisone, oseltamivir, icatibant, perphanizine, viracept, emetine, homoharringtonine, aloxistatin, ribavirin, valrubicin, famotidine, almitrine, amprenavir, hesperidin, biorobin, cromolyn sodium, and antibodiestocilzumab and sarilumab. Also, we provide a list of 31 drugs that are predicted to function against SARS-CoV-2 infection. In summary, we provide succinct overview of various therapeutic modalities. Among these 53 drugs, based on various clinical trials and literature, remdesivir, nelfinavir, methylpredinosolone, colchicine, famotidine and emetine may be used for COVID-19.
      原文链接:
    • NSTL
    • Elsevier

    Modulating phosphate consumption, a novel therapeutic approach for the control of cancer cell proliferation and tumorigenesis

    Beck, George R., Jr.Arnst, Jamie L.
    11页
    查看更多>>摘要:Phosphorus, often in the form of inorganic phosphate (Pi), is critical to cellular function on many levels; it is required as an integral component of kinase signaling, in the formation and function of DNA and lipids, and energy metabolism in the form of ATP. Accordingly, crucial aspects of cell mitosis - such as DNA synthesis and ATP energy generation - elevate the cellular requirement for Pi, with rapidly dividing cells consuming increased levels. Mechanisms to sense, respond, acquire, accumulate, and potentially seek Pi have evolved to support highly proliferative cellular states such as injury and malignant transformation. As such, manipulating Pi availability to target rapidly dividing cells presents a novel strategy to reduce or prevent unrestrained cell growth. Currently, limited knowledge exists regarding how modulating Pi consumption by pre-cancerous cells might influence the initiation of aberrant growth during malignant transformation, and if reducing the bioavailability or suppressing Pi consumption by malignant cells could alter tumorigenesis. The concept of targeting Pi-regulated pathways and/or consumption by pre-cancerous or tumor cells represents a novel approach to cancer prevention and control, although current data remains insufficient as to rigorously assess the therapeutic value and physiological relevance of this strategy. With this review, we present a critical evaluation of the paradox of how an element critical to essential cellular functions can, when available in excess, influence and promote a cancer phenotype. Further, we conjecture how Pi manipulation could be utilized as a therapeutic intervention, either systemically or at the cell level, to ultimately suppress or treat cancer initiation and/or progression.
      原文链接:
    • NSTL
    • Elsevier

    Small cyclic sodium channel inhibitors

    Peigneur, SteveOliveira, Cristina da Costade Sousa Fonseca, Flavia CristinaMcMahon, Kirsten L....
    10页
    查看更多>>摘要:Voltage-gated sodium (Na-V) channels play crucial roles in a range of (patho)physiological processes. Much interest has arisen within the pharmaceutical industry to pursue these channels as analgesic targets following overwhelming evidence that Na-V channel subtypes Na(V)1.7-Na(V)1.9 are involved in nociception. More recently, Na(V)1.1, Na(V)1.3 and Na(V)1.6 have also been identified to be involved in pain pathways. Venom-derived disulfide rich peptide toxins, isolated from spiders and cone snails, have been used extensively as probes to investigate these channels and have attracted much interest as drug leads. However, few peptide-based leads have made it as drugs due to unfavourable physiochemical attributes including poor in vivo pharmacokinetics and limited oral bioavailability. The present work aims to bridge the gap in the development pipeline between drug leads and drug candidates by downsizing these larger venom-derived Na-V inhibitors into smaller, more "drug-like" molecules. Here, we use molecular engineering of small cyclic peptides to aid in the determination of what drives subtype selectivity and molecular interactions of these downsized inhibitors across Na-V subtypes. We designed a series of small, stable and novel Na-V probes displaying Na-V subtype selectivity and potency in vitro coupled with potent in vivo analgesic activity, involving yet to be elucidated analgesic pathways in addition to Na-V subtype modulation.
      原文链接:
    • NSTL
    • Elsevier

    Altered metabolic profiles and biomarkers associated with astragaloside IV-mediated protection against cisplatin-induced acute kidney injury in rats: An HPLC-TOF/MS-based untargeted metabolomics study

    Song, YanqingHu, TingtingZhang, YuemingTao, Lina...
    12页
    查看更多>>摘要:Cisplatin (CDDP)-induced acute kidney injury (AKI) limits the therapeutic use of CDDP, which urgently needs to be addressed. Our previous study demonstrated that astragaloside IV (AS IV), an active compound of the traditional Chinese herb Astragalus membranaceus, alleviated CDDP-induced AKI. To explore the mechanism, we performed a metabolomics study to explore the altered metabolic pathways and screen for sensitive biomarkers. Twenty-four rats were randomly divided into three groups, which were treated with vehicle solutions (Control), intraperitoneally injected CDDP, and intraperitoneally injected CDDP plus oral AS IV, respectively. Metabolic profiles of serum, urine, and kidney samples were analyzed by high-performance liquid chromatography-time of flight mass spectrometry. There were 38 key metabolites in the urine samples, 20 in the serum samples, and 16 in the kidney samples that were significantly altered due to AS IV-mediated protection against CDDP-induced AKI relative to CDDP-only treatment. CDDP + AS IV co-treatment significantly altered two pathways in the blood (biosynthesis of unsaturated fatty acids and alanine, aspartate, and glutamate metabolism), five pathways in the urine (phenylalanine metabolism; phenylalanine, tyrosine, and tryptophan biosynthesis; arginine biosynthesis; arginine and proline metabolism; and histidine metabolism), and five pathways in the kidneys (glutathione metabolism; alanine, aspartate, and glutamate metabolism; glyoxylate and dicarboxylate metabolism; arginine and proline metabolism; and D-glutamine and D-glutamate metabolism). The metabolic pathways were mainly associated with improvements in inflammatory responses, oxidative stress, and energy metabolism. Adrenic acid in serum and L-histidine and L-methionine in urine were identified as sensitive biomarkers. This study provides new insights to understand the mechanism of AS IV-mediated protection against CDDP-induced AKI and has identified three candidate biomarkers to evaluate preventative treatment and assess therapeutic effectiveness.
      原文链接:
    • NSTL
    • Elsevier