Global ETD Search

31	Chemoenzymatic Studies to Enhance the Chemical Space of Natural Products Chen, Jhong-Min 01 January 2015 (has links) Natural products provide some of the most potent anticancer agents and offer a template for new drug design or improvement with the advantage of an enormous chemical space. The overall goal of this thesis research is to enhance the chemical space of two natural products in order to generate novel drugs with better in vivo bioactivities than the original natural products. Polycarcin V (PV) is a gilvocarcin-type antitumor agent with similar structure and comparable bioactivity with the principle compound of this group, gilvocarcin V (GV). Modest modifications of the polyketide-derived tetracyclic core of GV had been accomplished, but the most challenging part was to modify the sugar moiety. In order to solve this problem, PV was used as an alternative lead-structure for modification because its sugar moiety offered the possibility of enzymatic O-methylation. We produced four PV derivatives with different methylation patterns for cytotoxicity assays and provided important structure-activity-relationship information. Mithramycin (MTM) is the most prominent member of the aureolic acid type anticancer agents. Previous work in our laboratory generated three MTM analogues, MTM SA, MTM SK, and MTM SDK by inactivating the mtmW gene. We developed new MTM analogues by coupling many natural and unnatural amino acids to the C-3 side chain of MTM SA via chemical semi-synthesis and successfully made some compounds with both improved bioactivity and in vivo tolerance than MTM. Some of them were consequently identified as promising lead-structures against Ewing’s sarcoma. The potential of selectively generating novel MTM analogues led us to focus on a key enzyme in the biosynthetic pathway of mithramycin, MtmC. This protein is a bifunctional enzyme involved in the biosynthesis of TDP-D-olivose and TDP-D-mycarose. We clarified its enzymatic mechanisms by X-ray diffraction of several crystal complexes of MtmC with its biologically relevant ligands. Two more important post-PKS tailoring enzymes involved in the biosynthesis of the MTM side chains, MtmW and MtmGIV, are currently under investigation. This would not only give us insight into this biosynthetic pathway but also pave the way to develop potentially useful MTM analogues by engineered enzymes. gilvocarcin V polycarcin V mithramycin MtmC chemical space Bacteriology Biochemistry Carbohydrates Enzymes and Coenzymes Heterocyclic Compounds Medicinal and Pharmaceutical Chemistry Medicinal Chemistry and Pharmaceutics Molecular Biology Neoplasms Organic Chemicals Organic Chemistry Pharmaceutics and Drug Design Structural Biology
32	Effect of Coconut Oil on Ulcerative Colitis in the Mouse Model Alok, Pranav Chandra 01 May 2013 (has links) Ulcerative colitis (UC) is a chronic disease of the colon or large intestine that causes inflammation and ulceration of the inner lining of the colon and rectum. In patients with ulcerative colitis, the body’s immune system overreacts and the body mistakes food, bacteria or other internal materials in the colon for an invading substance. The immune system attacks the material, thus irritating the colon. Limited knowledge of inflammatory conditions coupled with a narrow range of therapeutic options necessitates investigating the role of natural products. This study describes the effect of natural coconut oil on chemically-induced acute and chronic disease in mice. Ulcerative colitis was induced in four groups (5 mice per group) of 10-week-old female C57BL/6 mice by exposing them to 2.5-3% dextran sulfate sodium (DSS) for 5 and 29 days in the acute and chronic models, respectively. Coconut oil treatment was given via food containing 5% coconut oil to three diseased groups in three different regimens: one, preventive group receiving treatment prior to disease induction (14 d in acute; 28 d in chronic); two, simultaneous group receiving treatment simultaneous to disease induction; and three, regular treatment group receiving treatment after the disease induction –until termination of the experiment (14 d in acute; 60 d in chronic). Coconut food was replaced by the regular chow in the disease and water control groups. Clinical symptoms (diarrhea, occult blood, anal bleeding and body weight change) and the size of the isolated colon were recorded for comparison between experimental and control groups. Groups receiving coconut food displayed remissions in clinical markers of the disease. Improvements in clinical symptoms, histopathology, as well as cytokine activities were observed in both models, but the effects were more significant on the basis of standard error in the chronic model. Ulcerative Colitis Coconut Medium-Chain Fatty Acids Gastrointestinal Ulcers Inflammatory Bowel Diseases Natural Fatty Acids Virgin Coconut Oil Coconut Supplements Biology Digestive, Oral, and Skin Physiology Medical Immunology
33	Concise Stereoselctive Synthesis Of Aspidoalbidine Alkaloids & Spliceostatin Derivatives Josh R Born (8762934) 12 October 2021 (has links) <div>Enantioselective syntheses of hexacyclic aspidoalbidine alkaloids (+)-fendleridine and (+)-acetylaspidoalbidine are described. These syntheses feature an asymmetric decarboxylative allylation and photocyclization of a highly substituted enaminone. Also, the synthesis highlights the formation of a C19-hemiaminal ether via a reduction/condensation/intramolecular cyclization cascade with the C21-alcohol. The present synthesis provides convenient access to the aspidoalbidine hexacyclic alkaloid family in an efficient manner.</div><div>A copper-catalyzed cross-coupling is described. Use of Cu(I) salts in the presence of allyl bromides and organostannyl furans were found to undergo catalytic turnover under ambient conditions and afford the coupled products in good to great yields. Model substrate screening led to conditions used in the concise formal synthesis of FR901464 analogues. Optimization of the described coupling step led to suppression of undesired isomers and byproducts affording the desired diene coupled product in high yield, stereo-, and regioselectivity on a multigram scale. Novel protection of the resulting diene moiety as an unconventional protecting group, and a facile four-step single column chromatographic stereoselective sequence are also reported.</div> Organic Chemistry Stereochemistry Transition Metal Chemistry Natural Products Chemistry Organic Chemical Synthesis Solution Chemistry Organometallic Chemistry Natural Product Synthesis Organic Synthesis Aspidosperma Aspidoalbidine Spliceostatin FR901464 Stille Coupling Stoltz Asymmetric Allylation Alkaloids
34	DESIGN AND SYNTHESIS OF POTENT HIV-1 PROTEASE INHIBITORS AND ENANTIOSELECTIVE SYNTHESIS OF ANTIDIABETIC AGENT, CARAMBOLAFLAVONE William L. Robinson (12211523) 17 May 2024 (has links) HIV-1 protease inhibitor drugs are important components of current antiretroviral therapy (cART). The cART treatment regimens dramatically improved life expectancy and mortality of patients with HIV-1 infection and AIDS. However, new and improved protease inhibitor drugs are essential for future treatment options. To this end, syntheses of optically active (3a<i>S</i>,4<i>S</i>,7a<i>R</i>)-hexahydro-4<i>H</i>-furo[2,3-<i>b</i>]pyran-4-ol, (3a<i>R</i>,4<i>R</i>,7a<i>S</i>)-hexahydro-4<i>H</i>-furo[2,3-b]pyran-4-ol, and (3<i>R</i>,3a<i>S</i>,6a<i>R</i>)-hexahydrofuro[2,3-6]furan-3-ol have been accomplished. These stereochemically defined heterocyclic derivatives are important high-affinity P2 ligands for a variety of highly potent HIV-1 protease inhibitors. The key steps for the synthesis hexehydrofuropyranol involve an efficient Paternò-Büchi [2+2] photocycloaddition, catalytic hydrogenation, acid-catalyzed cyclization to form the racemic ligand alcohol, and enzymatic resolution with immobilized Amano Lipase PS-30. Optically active ligand alcohols were obtained with high enantiomeric purity. Enantiomer (-)-ligand alcohol has been converted to potent HIV-1 protease inhibitors. <div><br></div><div>(3<i>R</i>,3a<i>S</i>,6a<i>R</i>)-Hexahydrofuro[2,3-<i>b</i>]furan-3-ol(<i>bis</i>-tetrahydrofuran) is a key subunit of darunavir, an FDA approved HIV-1 protease inhibitor drug which is widely used for the treatment of HIV/AIDS patients. This stereochemically defined bicyclic heterocycle is also embedded in a variety of highly potent HIV-1 protease inhibitors. The synthesis of optically active <i>bis</i>-tetrahydrofuran was achieved in optically pure form utilizing commercially available and inexpensive 1,2-<i>O</i>-isopropylidene-α-D-xylofuranose or 1,2-O-isopropylidene-α-D-glucofuranose as the starting material. The key steps involve a highly stereoselective substrate-controlled hydrogenation of ethyl 2-(dihydrofuran-3(2H)-ylidene)acetate, a Lewis acid-catalyzed anomeric reduction of a 1,2-<i>O</i>-isopropylidene-protected glycofuranoside, and a Baeyer-Villiger oxidation of a tetrahydrofuranyl-2-aldehyde derivative. Optically active (3<i>R</i>,3a<i>S</i>,6a<i>R</i>)-hexahydrofuro[2,3-<i>b</i>]furan-3-ol ligand was converted to darunavir efficiently. Furthermore, both furopyranol and bis-tetrahydrofuran ligand alcohols have been converted into a variety of potent HIV-1 protease inhibitors including inhibitors containing P2'-boronic acid ligands.<br></div><div><br></div><div>Diabetes mellitus is a chronic, progressive metabolic disorder that seriously threatens human health worldwide, particularly in developing countries. The prevalence of diabetes has been increasing steadily, especially in developing countries. Carambolaflavone A is a natural flavonoid isolated from the leaves of starfruit tree, <i>Averrhoacarambola</i>, in 2005. Carambolaflavone A possesses a <i>C</i>-aryl glycosidic linkage. Carambolaflavone A exhibited significant antihyperglycemic properties. More detailed biological studies reveal that it can lower acute blood glucose. The biology and chemistry of carambolaflavone A attracted our interest in synthesis and further design of interesting structural variants. A convergent total synthesis of carambolaflavone A has been accomplished. The synthesis highlights a bismuth triflate-catalyzed stereoselective C-aryl glycosylation of flavan and an appropriately protected D-fucose derivative as the key step. The glycosylation partners were synthesized from commercially available (±)-naringenin and D-(+)-galactose, respectively. An oxidative bromination and elimination reaction sequence was utilized to construct the flavone. The natural product is obtained in 10 steps (longest linear sequence) from D-(+)-galactose.<br></div> Natural products and bioactive compounds carambolaflavone HIV/AIDS synthesis darunavir glycosylation bis-muth salt catalysis Natural Products Chemistry
35	TOWARD AN ENZYME-COUPLED, BIOORTHOGONAL PLATFORM FOR METHYLTRANSFERASES: PROBING THE SPECIFICITY OF METHIONINE ADENOSYLTRANSFERASES Huber, Tyler D. 01 January 2019 (has links) Methyl group transfer from S-adenosyl-l-methionine (AdoMet) to various substrates including DNA, proteins, and natural products (NPs), is accomplished by methyltransferases (MTs). Analogs of AdoMet, bearing an alternative S-alkyl group can be exploited, in the context of an array of wild-type MT-catalyzed reactions, to differentially alkylate DNA, proteins, and NPs. This technology provides a means to elucidate MT targets by the MT-mediated installation of chemoselective handles from AdoMet analogs to biologically relevant molecules and affords researchers a fresh route to diversify NP scaffolds by permitting the differential alkylation of chemical sites vulnerable to NP MTs that are unreactive to traditional, synthetic organic chemistry alkylation protocols. The full potential of this technology is stifled by several impediments largely deriving from the AdoMet-based reagents, including the instability, membrane impermeability, poor synthetic yield and resulting diastereomeric mixtures. To circumvent these main liabilities, novel chemoenzymatic strategies that employ methionine adenosyltransferases (MATs) and methionine (Met) analogs to synthesize AdoMet analogs in vitro were advanced. Unstable AdoMet analogs are simultaneously utilized in a one-pot reaction by MTs for the alkylrandomization of NP scaffolds. As cell membranes are permeable to Met analogs, this also sets the stage for cell-based and, potentially, in vivo applications. In order to further address the instability of AdoMet and analogs thereof, MAT-catalyzed reactions utilizing Met and ATP isosteres generated highly stable AdoMet isosteres that were capable of downstream utilization by MTs. Finally, the development, use, and results of a high-throughput screen identified mutant-MAT/Met-analog pairs suitable for postliminary bioorthogonal applications. Methionine Adenosyltransferase Methyltransferase S-Adenosyl-L-methionine Natural Product Diversification Bioorthogonal Labelling Platforms Amino Acids, Peptides, and Proteins Biochemistry Biotechnology Chemical and Pharmacologic Phenomena Enzymes and Coenzymes Medicinal and Pharmaceutical Chemistry Medicinal Chemistry and Pharmaceutics Medicinal-Pharmaceutical Chemistry Molecular Biology Organic Chemistry Structural Biology
36	TARGET-DIRECTED BIOSYNTHETIC EVOLUTION: REDIRECTING PLANT EVOLUTION TO GENOMICALLY OPTIMIZE A PLANT’S PHARMACOLOGICAL PROFILE Brown, Dustin Paul 01 January 2015 (has links) The dissertation describes a novel method for plant drug discovery based on mutation and selection of plant cells. Despite the industry focus on chemical synthesis, plants remain a source of potent and complex bioactive metabolites. Many of these have evolved as defensive compounds targeted on key proteins in the CNS of herbivorous insects, for example the insect dopamine transporter (DAT). Because of homology with the human DAT protein some of these metabolites have high abuse potential, but others may be valuable in treating drug dependence. This dissertation redirects the evolution of a native Lobelia species toward metabolites with greater activity at this therapeutic target, i.e. the human DAT. This was achieved by expressing the human DAT protein in transgenic plant cells and selecting gain-of-function mutants for survival on medium containing a neurotoxin that is accumulated by the human DAT. This created a sub-population of mutants with increased DAT inhibitory activity. Some of the active metabolites in these mutants are novel (i.e. not detectable in wild-type cells). Others are cytoprotective, and also protect DAergic neurons against the neurotoxin. This provides proof-of-concept for a novel plant drug discovery platform, which is applicable to many different therapeutic target proteins and plant species. Plant secondary metabolites Lobelia cardinalis human dopamine transporter target-directed biosynthetic evolution drug dependence Agricultural Science Alternative and Complementary Medicine Biotechnology Chemical Actions and Uses Complex Mixtures Evolution Genomics Heterocyclic Compounds Lipids Medicinal and Pharmaceutical Chemistry Medicinal Chemistry and Pharmaceutics Nervous System Organic Chemicals Pharmaceutics and Drug Design Pharmacy and Pharmaceutical Sciences Plant Sciences Polycyclic Compounds Psychiatry and Psychology
37	Meta-Analysis of Herbal Cannabis Therapy for Chronic Pain Seneca, Michael J 01 January 2014 (has links) Since the first so-called “medical marijuana” legislation was passed in California in 1996, a total of twenty states and the District of Columbia have passed laws permitting limited use of cannabis. Despite the changes in state laws, cannabis remains illegal for any purpose under federal law. Changes in state laws have coincided with a renewed interest in the substance for the treatment of a variety of conditions. There has been a significant increase in published data over the past twenty years examining the efficacy of cannabis as an appetite stimulant, antiemetic agent, and analgesic adjuvant. The purpose of this meta-analysis was to synthesize published data on cannabis use as an analgesic agent. Five studies meeting inclusion criteria were located through searches of online databases, review of reference lists, author correspondence, and review of clinical trials databases. Meta-analysis was conducted using fixed-effects modeling. The overall effect of mean reduction of pain intensity was -4.895 (Z-score) with an associated p value of 0.003. The combined standardized mean difference (SMD) was -0.362 (CI -0.507 to -0.217), indicating on average a moderate significant reduction in pain intensity for patients with chronic pain. As the legal status of the substance evolves, additional research is needed to establish evidence-based clinical recommendations regarding the use of medicinal cannabis in pain management. University of North Florida UNF Project DNP D.N.P. cannabis marijuana chronic pain neuropathic pain Chronic pain -- Alternative treatment Chronic pain -- Prevention Medical Pharmacology Medicinal and Pharmaceutical Chemistry Medicine and Health Sciences Nursing
38	Anti-Psychotic Drug Induced Tardive Dyskinesia: A Role for the Anti-Apoptotic Molecule Curcumin Sookram, Christal D. 10 1900 (has links) <p>Anti-psychotic drug (APD) administration can induce movement disorders including tardive dyskinesia (TD), characterized by abnormal movements of the oro-facial region and occasionally the trunk and limbs. The most widely accepted model of TD is the APD-induced vacuous chewing movement (VCM). While the mechanism of induction of TD remains unclear, there are two prevailing hypothesis: oxidative stress and dopamine supersensitivity. Currently available APDs antagonize dopamine D2 receptors (D2R) which can result in excessive dopamine accumulation and oxidation which was demonstrated to induce striatal neurodegeneration and increased oxidative stress. The dopamine supersensitivity hypothesis proposes that APD treatment causes an up-regulation of high affinity D2Rs to compensate for D2R antagonism. Curcumin, a derivative of turmeric, has been demonstrated to affect dopamine levels and hold significant anti-apoptotic potential. Thus, the goal of this study was to investigate curcumin’s potential to prevent haloperidol-induced behavioural and biochemical abnormalities. Four groups of rats were treated daily: control; haloperidol (at 2mg/kg intra-peritoneally); curcumin (at 200mg/kg orally in jello) and curcumin plus haloperidol. VCMs, catalepsy and locomotor activity were assessed. Animals were sacrificed and tissues removed for qPCR, immunoblot, receptor binding, and UPLC assessments. At day14 there was a significant increase in VCMs and catalepsy following haloperidol treatment, which was prevented by curcumin treatment. However, curcumin did not alter locomotor activity. Curcumin was demonstrated to increase the expression of the anti-apoptotic molecule BclXL and to increase striatal D2Rs. These investigations support the potential of curcumin in the prevention of TD and provide insight into the complex pathophysiology of this disorder.</p> / Doctor of Philosophy (Medical Science) TARDIVE DYSKINESIA ANTI-PSYCHOTIC DRUGS VACUOUS CHEWING MOVEMENT CATALEPSY LOCOMOTOR ACTIVITY CURCUMIN BclXL Behavior and Behavior Mechanisms Medical Neurobiology Medical Pharmacology Medicinal and Pharmaceutical Chemistry Medicine and Health Sciences Neurosciences Pharmaceutical Preparations Psychiatric and Mental Health Behavior and Behavior Mechanisms

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