Publications by authors named "Sujata Bardhan"

The National Institutes of Health (NIH) has a long-standing history of support for research in Down syndrome (DS). In response to a 2018 congressional directive for a trans-NIH initiative to address medical issues in DS, NIH launched the INCLUDE Project (INvestigation of Co-occurring conditions across the Lifespan to Understand Down syndromE). Reflecting the three INCLUDE components of basic science research, cohort development, and clinical trials, the Project has published funding opportunities to address conditions such as immune disorders and Alzheimer's disease.

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Down syndrome (DS) is the most common genetic cause of intellectual and developmental disabilities in the United States with an estimated birth prevalence of 1:691 births; however, worldwide estimates of the number of individuals with intellectual and developmental disabilities, including DS, remain speculative. Little is known about the global health impact of DS, such as heart defects, gastrointestinal malformations, and other medical and behavioral issues. Further research is needed to develop the next generation of novel therapies and compounds aimed at improving cognition, reducing dementia, and mitigating other manifestations of DS.

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The oxidative palladium-catalyzed cross-coupling of pyrimidines containing pyridotriazol-1-yloxy (OPt) as either a urea or an amide functional group with arylboronic acids in the presence of Cs(2)CO(3) in DME containing 0.6-1.0% H(2)O is described for the preparation of heteroaryl ethers.

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The palladium-catalyzed oxidative coupling of pyrido- and benzotriazol-1-yloxyquinazolines and -thienopyrimidines with aryl boronic acids in the presence of Pd(PPh(3))(4) and Cs(2)CO(3) under oxygen in DME containing 0.4-0.8% water for the preparation of heteroaryl ethers is described.

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Synthesis of the spiroisoxazoline natural product (+)-calafianin is reported using asymmetric nucleophilic epoxidation and nitrile oxide cycloaddition as key steps. Synthesis and spectral analysis of all calafianin stereoisomers led to unambiguous assignment of relative and absolute stereochemistry.

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Transcription factor NF-kappaB is constitutively active in many human chronic inflammatory diseases and cancers. Epoxyquinone A monomer (EqM), a synthetic derivative of the natural product epoxyquinol A, has previously been shown to be a potent inhibitor of tumor necrosis factor-alpha (TNF-alpha)-induced activation of NF-kappaB, but the mechanism by which EqM inhibits NF-kappaB activation was not known. In this report, we show that EqM blocks activation of NF-kappaB by inhibiting two molecular targets: IkappaB kinase IKKbeta and NF-kappaB subunit p65.

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The NF-kappaB transcription factor signaling pathway is constitutively active in many human cancers, and inhibition of this pathway can often kill cancer cells by inducing apoptosis. In this study, we show that two synthetic epoxyquinoids, jesterone dimer (JD) and epoxyquinone A monomer (EqM), are equally effective at inhibiting the growth of two human lymphoma cell lines that have constitutively nuclear REL (human c-Rel) DNA-binding complexes, but either express (SUDHL-4 cells) or do not express (RC-K8 cells) the NF-kappaB inhibitor IkappaBalpha. Furthermore, in these cells, both JD and EqM dose-dependently induced apoptosis, inhibited REL DNA-binding activity, and converted REL to a high molecular weight form.

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Rel/nuclear factor-kappaB (NF-kappaB) transcription factors control a variety of cellular processes, such as cell growth and apoptosis, and are continually activated in many human diseases, including chronic inflammatory diseases and cancer. Jesterone dimer (JD) is a synthetic derivative of the natural fungal metabolite jesterone, and JD has previously been shown to be cytotoxic in select tumor cell lines. In this report, we demonstrate that JD is a potent inhibitor of the activation of transcription factor NF-kappaB.

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[reaction: see text] The asymmetric synthesis of the natural product (+)-epoxyquinol A (1) and related epoxyquinoid dimers, employing a cascade oxidation/electrocyclization/Diels-Alder dimerization sequence, is reported. In addition, we show that 1 and related molecules inhibit activation of the transcription factor NF-kappaB.

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