Your search keyword '"Rainier JD"' showing total 61 results

1. The Role of N- Substitution in Regio- and Stereoselective Vinylogous Imidonaphthoquinone (VINAquinone) [2 + 2] Photocycloadditions.

Author

Merski I, Yin J, VanderLinden RT, and Rainier JD

Abstract

Described in this manuscript are intramolecular [2 + 2] photocycloadditions of readily available vinylogous imidonaphthoquinones whose regio- and diastereoselectivity is dependent on the substitution on the vinylogous imide. When exposed to 419 nm light, 2° vinylogous imidonaphthoquinones give novel bridged tetracyclic aza-anthraquinones from a rare crossed [2 + 2] cycloaddition reaction. In contrast, exposure of the corresponding 3° substrates to white light leads to linear adducts. Also outlined here are auxiliary controlled diastereoselective reactions and cyclobutane fragmentations as a means of generating the spirofused γ-lactam moiety present in the ansalactam family of natural product.

Published

2024

2. A gram-scale synthesis of very-long chain polyunsaturated fatty acids (VLC-PUFAs).

Author

Song C, Wade A, and Rainier JD

Subjects

Molecular Structure, Zinc chemistry, Docosahexaenoic Acids chemistry, Docosahexaenoic Acids chemical synthesis, Fatty Acids, Unsaturated chemistry, Fatty Acids, Unsaturated chemical synthesis

Abstract

This manuscript describes our third generation, gram-scale synthesis of very long chain-polyunsaturated fatty acids (VLC-PUFAs), a unique and increasingly important class of lipids. Critical to this work and what makes it different from our previous approach to this family was the avoidance of oxidation sequences. Central to accomplishing this involved the use of a Negishi coupling reaction between the acid chloride derived from DHA and a saturated alkyl zinc reaction. Overall, the general approach required 6 synthetic transformations from DHA and was accomplished with an overall yield of 40%.

Published

2024

3. A Biaryl-Cyclohexenone Photoelectrocyclization/Dearomatization Sequence to Substituted Terpenes.

Author

Tummalapalli KSS, Zhao X, and Rainier JD

Abstract

Described here is the development of sequential cross-coupling, photoelectrocyclizations, and reductive dearomatizations of biaryl cyclohexenones as a means of synthesizing terpene skeletons. This methodology promises to provide insight that will enable us and others to use this approach to generate a variety of biologically active small molecules, including members of the abietane and morphinan skeletons., Competing Interests: Declaration of interests The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2023

4. Influence of very-long-chain polyunsaturated fatty acids on membrane structure and dynamics.

Author

Cheng V, Rallabandi R, Gorusupudi A, Lucas S, Rognon G, Bernstein PS, Rainier JD, and Conboy JC

Subjects

Biological Transport, Fatty Acids, Unsaturated chemistry, Spectrum Analysis, Fatty Acids metabolism, Phosphatidylcholines chemistry

Abstract

The unique attributes of very-long-chain polyunsaturated fatty acids (VLC-PUFAs), their long carbon chains (n > 24) and high degree of unsaturation, impart unique chemical and physical properties to this class of fatty acids. The changes imparted by VLC-PUFA 32:6 n-3 on lipid packing and the compression moduli of model membranes were evaluated from π-A isotherms of VLC-PUFA in 1,2-distearoyl-sn-3-glycero-phosphocholine (DSPC) lipid monolayers. To compare the attractive or repulsive forces between VLC-PUFA and DSPC lipid monolayers, the measured mean molecular areas (MMAs) were compared with the calculated MMAs of an ideal mixture of VLC-PUFA and DSPC. The presence of 0.1, 1, and 10 mol % VLC-PUFA shifted the π-A isotherm to higher MMAs of the lipids comprising the membrane and the observed positive deviations from ideal behavior of the mixed VLC-PUFA:DSPC monolayers correspond to repulsive forces between VLC-PUFAs and DSPC. The MMA of the VLC-PUFA component was estimated using the measured MMAs of DSPC of 47.1 ± 0.7 Å 2 /molecule, to be 15,000, 1100, and 91 Å 2 /molecule at 0.1, 1, and 10 mol % VLC-PUFA:DSPC mixtures, respectively. The large MMAs of VLC-PUFA suggest that the docosahexaenoic acid tail reinserts into the membrane and adopts a nonlinear structure in the membrane, which is most pronounced at 0.1 mol % VLC-PUFA. The presence of 0.1 mol % VLC-PUFA:DSPC also significantly increased the compression modulus of the membrane by 28 mN/m compared with a pure DSPC membrane. The influence of VLC-PUFA on lipid "flip-flop" was investigated by sum-frequency vibrational spectroscopy. The incorporation of 0.1 mol % VLC-PUFA increased the DSPC flip-flop rate fourfold. The fact that VLC-PUFA promotes lipid translocation is noteworthy as retinal membranes require a high influx of retinoids which may be facilitated by lipid flip-flop., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022. Published by Elsevier Inc.)

Published

2022

5. Biphenyl Cyclobutenone Photoelectrocyclizations.

Author

Dai C, Zhao X, Song C, Schwartz Z, and Rainier JD

Subjects

Biphenyl Compounds, Cyclobutanes

Abstract

In this work, we demonstrate that readily available conjugated bis-aryl cyclobutenones undergo photoelectrocyclization reactions to give the corresponding dihydrophenanthrene cyclobutanones when exposed to 350 nm light, TFA, and TMSCl. We have also found that cyclobutenone electrocyclizations and cycloreversions are in equilibrium.

Published

2021

6. The synthesis of the very long chain polyunsaturated fatty acid (VLC-PUFA) 32:6 n-3.

Author

Wade A, Rallabandi R, Lucas S, Oberg C, Gorusupudi A, Bernstein PS, and Rainier JD

Abstract

This article describes the synthesis of VLC-PUFA 32:6 n-3, D2-labeled 32:6 n-3, and the uptake of 32:6 n-3 into mouse retinal tissue.

Published

2021

7. Retinal bioavailability and functional effects of a synthetic very-long-chain polyunsaturated fatty acid in mice.

Author

Gorusupudi A, Rallabandi R, Li B, Arunkumar R, Blount JD, Rognon GT, Chang FY, Wade A, Lucas S, Conboy JC, Rainier JD, and Bernstein PS

Subjects

Animals, Biological Availability, Disease Models, Animal, Fatty Acids, Unsaturated genetics, Fatty Acids, Unsaturated pharmacology, Humans, Mice, Mice, Knockout, Retina pathology, Retinal Degeneration diet therapy, Retinal Degeneration genetics, Retinal Degeneration pathology, Visual Acuity genetics, Eye Proteins genetics, Fatty Acids, Unsaturated metabolism, Membrane Proteins genetics, Retina metabolism, Retinal Degeneration metabolism

Abstract

Rare, nondietary very-long-chain polyunsaturated fatty acids (VLC-PUFAs) are uniquely found in the retina and a few other vertebrate tissues. These special fatty acids play a clinically significant role in retinal degeneration and development, but their physiological and interventional research has been hampered because pure VLC-PUFAs are scarce. We hypothesize that if Stargardt-3 or age-related macular degeneration patients were to consume an adequate amount of VLC-PUFAs that could be directly used in the retina, it may be possible to bypass the steps of lipid elongation mediated by the retina's ELOVL4 enzyme and to delay or prevent degeneration. We report the synthesis of a VLC-PUFA (32:6 n-3) in sufficient quantity to study its bioavailability and functional benefits in the mouse retina. We acutely and chronically gavage fed wild-type mice and Elovl4 rod-cone conditional knockout mice this synthetic VLC-PUFA to understand its bioavailability and its role in visual function. VLC-PUFA-fed wild-type and Elovl4 conditional knockout mice show a significant increase in retinal VLC-PUFA levels in comparison to controls. The VLC-PUFA-fed mice also had improvement in the animals' visual acuity and electroretinography measurements. Further studies with synthetic VLC-PUFAs will continue to expand our understanding of the physiological roles of these unique retinal lipids, particularly with respect to their potential utility for the treatment and prevention of retinal degenerative diseases., Competing Interests: Competing interest statement: A.G., R.R., J.D.R., P.S.B., and the University of Utah have filed a provisional patent application on the chemical synthesis of VLC-PUFAs and their therapeutic effects.

Published

2021

8. The Synthesis of Conjugated Bis-Aryl Vinyl Substrates and Their Photoelectrocyclization Reactions towards Phenanthrene Derivatives.

Author

Zhao X and Rainier JD

Abstract

The photoelectrocyclization of conjugated vinyl biaryls has proven to be a valuable and efficient strategy for generating phenanthrene derivatives. Contained in this review is an overview of the mechanism for the transformation and a discussion of the reaction scope with a focus on the electrocyclization itself, rearomatization, and the application of the reaction in natural product synthesis.

Published

2021

9. The one-pot synthesis of amidonapthoquinones from aminonaphthoquinones.

Author

Yin J and Rainier JD

Abstract

Described here is a one-pot method of synthesizing amidonaphthoquinones from the corresponding aminonaphthoquinones. The scope of amides that can be synthesized using this methodology is relatively broad and the yield of product is higher than the traditional methods of synthesizing these substrates., Competing Interests: Declaration of interests The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2020

10. Photoelectrocyclization Reactions of Conjugated Cycloalkenones: Scope and Reactivity.

Author

Zhao X, Song C, and Rainier JD

Subjects

Cyclization, Protons

Abstract

Outlined here are studies exploring the scope of the sequential photoelectrocyclization, [1,5]-hydride shift of conjugated bis-aryl cycloalkenone substrates. We have found not only that the cyclization precursors can be synthesized in a modular fashion but also that the cyclization is efficient and amenable to the presence of a range of cycloalkenones and aromatic systems. Among the interesting discoveries from this work is that the electrocyclization intermediate can be competitively captured with protons and that the nature of the excited state (singlet vs triplet) is dependent on aromatic substitution.

Published

2020

11. Photoelectrocyclization Reactions of Amidonaphthoquinones.

Author

Yin J, Landward MB, and Rainier JD

Subjects

Anthraquinones, Anti-Bacterial Agents, Biological Products, Naphthoquinones

Abstract

Readily available acrylamide naphthoquinones can be converted into the corresponding aza-anthraquinones using 6π-photoelectrocyclization reactions. Not only do these reactions not proceed thermally but, as demonstrated here, they can also be used to generate a range of aza-anthraquinone and aza-tetracycline derivatives including the natural products griffithazanone A and marcanine A. Several of the aza-anthraquinones generated in this work showed antibacterial activity.

Published

2020

12. Stereodivergent Photoelectrocyclization Reactions of Bis-aryl Cycloalkenones: Intercepting Photoelectrocyclization Intermediates with Acid.

Author

Zhao X, Song C, and Rainier JD

Subjects

Cyclization, Electrochemistry, Stereoisomerism, Ketones chemistry, Photochemical Processes

Abstract

Described here are tandem photoelectrocyclization and [1,5]-hydride shift reactions of heteroaryl-containing bis-aryl cyclohexenone derivatives that give heteroaryl-substituted dihydrophenanthrenes. This Letter demonstrates that electrocyclization intermediates can be trapped with acid when the [1,5]-hydride shift is relatively slow. From a practical perspective, the observation that the acid-mediated reaction gives a divergent stereochemical outcome when compared with the reaction run under neutral conditions makes these transformations powerful.

Published

2019

13. Gambierol and n-alkanols inhibit Shaker Kv channel via distinct binding sites outside the K(+) pore.

Author

Martínez-Morales E, Kopljar I, Rainier JD, Tytgat J, Snyders DJ, and Labro AJ

Subjects

Binding Sites, Ion Channel Gating, 1-Butanol toxicity, Ciguatoxins toxicity, Potassium Channel Blockers toxicity, Shaker Superfamily of Potassium Channels antagonists & inhibitors

Abstract

The marine polycyclic-ether toxin gambierol and 1-butanol (n-alkanol) inhibit Shaker-type Kv channels by interfering with the gating machinery. Competition experiments indicated that both compounds do not share an overlapping binding site but gambierol is able to affect 1-butanol affinity for Shaker through an allosteric effect. Furthermore, the Shaker-P475A mutant, which inverses 1-butanol effect, is inhibited by gambierol with nM affinity. Thus, gambierol and 1-butanol inhibit Shaker-type Kv channels via distinct parts of the gating machinery., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

14. Voltage-sensor conformation shapes the intra-membrane drug binding site that determines gambierol affinity in Kv channels.

Author

Kopljar I, Grottesi A, de Block T, Rainier JD, Tytgat J, Labro AJ, and Snyders DJ

Subjects

Amino Acid Sequence, Animals, Binding Sites, Cell Line, Dose-Response Relationship, Drug, Membrane Potentials drug effects, Membrane Potentials physiology, Mice, Models, Molecular, Mutant Chimeric Proteins, Patch-Clamp Techniques, Protein Conformation, Shab Potassium Channels genetics, Shaw Potassium Channels genetics, Ciguatoxins pharmacology, Potassium Channel Blockers pharmacology, Shab Potassium Channels antagonists & inhibitors, Shab Potassium Channels metabolism, Shaw Potassium Channels antagonists & inhibitors, Shaw Potassium Channels metabolism

Abstract

Marine ladder-shaped polyether toxins are implicated in neurological symptoms of fish-borne food poisonings. The toxin gambierol, produced by the marine dinoflagellate Gambierdiscus toxicus, belongs to the group of ladder-shaped polyether toxins and inhibits Kv3.1 channels with nanomolar affinity through a mechanism of gating modification. Binding determinants for gambierol localize at the lipid-exposed interface of the pore forming S5 and S6 segments, suggesting that gambierol binds outside of the permeation pathway. To explore a possible involvement of the voltage-sensing domain (VSD), we made different chimeric channels between Kv3.1 and Kv2.1, exchanging distinct parts of the gating machinery. Our results showed that neither the electro-mechanical coupling nor the S1-S3a region of the VSD affect gambierol sensitivity. In contrast, the S3b-S4 part of the VSD (paddle motif) decreased gambierol sensitivity in Kv3.1 more than 100-fold. Structure determination by homology modeling indicated that the position of the S3b-S4 paddle and its primary structure defines the shape and∖or the accessibility of the binding site for gambierol, explaining the observed differences in gambierol affinity between the channel chimeras. Furthermore, these findings explain the observed difference in gambierol affinity for the closed and open channel configurations of Kv3.1, opening new possibilities for exploring the VSDs as selectivity determinants in drug design., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

15. Synthesis of the ABCDEF and FGHI ring system of yessotoxin and adriatoxin.

Author

Zhang Y and Rainier JD

Subjects

Animals, Biological Products chemistry, Chemistry Techniques, Synthetic, Cyclization, Dinoflagellida metabolism, Molecular Structure, Mollusk Venoms, Oxocins chemistry, Pectinidae chemistry, Biological Products chemical synthesis, Oxocins chemical synthesis

Abstract

Yessotoxin and adriatoxin are members of the polycyclic ether family of marine natural products. Outlined in this article is our synthetic approach to two subunits of these targets. Central to our strategy is a coupling sequence that employs an olefinic-ester cyclization reaction. As outlined, this sequence was used in two coupling sequences. First, it was used to merge the A, B- and E, F-bicyclic precursors and in the process generate the C- and D-rings. Second, it was used to couple the F- and I-rings while building the eight-membered G-ring and subsequently the H-ring pyran.

Published

2016

16. Fluorescent kapakahines serve as non-toxic probes for live cell Golgi imaging.

Author

Rocha DD, Espejo VR, Rainier JD, La Clair JJ, and Costa-Lotufo LV

Subjects

Cell Survival drug effects, Fluorescent Dyes toxicity, HCT116 Cells, Humans, Microscopy, Fluorescence, Peptides, Cyclic toxicity, Staining and Labeling, Fluorescent Dyes metabolism, Golgi Apparatus metabolism, Peptides, Cyclic metabolism

Abstract

Aims: There is an ongoing need for fluorescent probes that specifically-target select organelles within mammalian cells. This study describes the development of probes for the selective labeling of the Golgi apparatus and offers applications for live cell and fixed cell imaging., Main Methods: The kapakahines, characterized by a common C(3)-N(1') dimeric tryptophan linkage, comprise a unique family of bioactive marine depsipeptide natural products. We describe the uptake and subcellular localization of fluorescently-labeled analogs of kapakahine E. Using confocal microscopy, we identify a rapid and selective localization within the Golgi apparatus. Comparison with commercial Golgi stains indicates a unique localization pattern, which differs from currently available materials, therein offering a new tool to monitor the Golgi in live cells without toxic side effects., Key Findings: This study identifies a fluorescent analog of kapakahine E that is rapidly uptaken in cells and localizes within the Golgi apparatus., Significance: The advance of microscopic methods is reliant on the parallel discovery of next generation molecular probes. This study describes the advance of stable and viable probe for staining the Golgi apparatus., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

17. Reactivity of vinyl phosphonate containing diazoesters: formation, reactivity, and utility.

Author

Wang J and Rainier JD

Abstract

Treatment of diazo vinyl phosphonate with alcohols, amines, and thiols in the presence of Rh(II) results in the chemo- and stereoselective generation of enol ethers, enamines and vinyl sulfides via an X-H insertion process. The utility of the products from these reactions was demonstrated through their conversion into quaternary substituted heterocycles including furans and oxetanes as highlighted by the generation of a bicyclic phosphonate analogue of neodysiherbaine.

Published

2015

18. Gambierol inhibition of voltage-gated potassium channels augments spontaneous Ca2+ oscillations in cerebrocortical neurons.

Author

Cao Z, Cui Y, Busse E, Mehrotra S, Rainier JD, and Murray TF

Subjects

Animals, Calcium physiology, Calcium Signaling drug effects, Cells, Cultured, Cerebral Cortex drug effects, Dose-Response Relationship, Drug, Mice, Neurons drug effects, Potassium Channels, Voltage-Gated antagonists & inhibitors, Calcium Signaling physiology, Cerebral Cortex physiology, Ciguatoxins pharmacology, Neurons physiology, Potassium Channel Blockers pharmacology, Potassium Channels, Voltage-Gated physiology

Abstract

Gambierol is a marine polycyclic ether toxin produced by the marine dinoflagellate Gambierdiscus toxicus and is a member of the ciguatoxin toxin family. Gambierol has been demonstrated to be either a low-efficacy partial agonist/antagonist of voltage-gated sodium channels or a potent blocker of voltage-gated potassium channels (Kvs). Here we examined the influence of gambierol on intact cerebrocortical neurons. We found that gambierol produced both a concentration-dependent augmentation of spontaneous Ca(2+) oscillations, and an inhibition of Kv channel function with similar potencies. In addition, an array of selective as well as universal Kv channel inhibitors mimicked gambierol in augmenting spontaneous Ca(2+) oscillations in cerebrocortical neurons. These data are consistent with a gambierol blockade of Kv channels underlying the observed increase in spontaneous Ca(2+) oscillation frequency. We also found that gambierol produced a robust stimulation of phosphorylation of extracellular signal-regulated kinases 1/2 (ERK1/2). Gambierol-stimulated ERK1/2 activation was dependent on both inotropic [N-methyl-d-aspartate (NMDA)] and type I metabotropic glutamate receptors (mGluRs) inasmuch as MK-801 [NMDA receptor inhibitor; (5S,10R)-(+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten-5,10-imine maleate], S-(4)-CGP [S-(4)-carboxyphenylglycine], and MTEP [type I mGluR inhibitors; 3-((2-methyl-4-thiazolyl)ethynyl) pyridine] attenuated the response. In addition, 2-aminoethoxydiphenylborane, an inositol 1,4,5-trisphosphate receptor inhibitor, and U73122 (1-[6-[[(17b)-3-methoxyestra-1,3,5(10)-trien-17-yl]amino]hexyl]-1H-pyrrole-2,5-dione), a phospholipase C inhibitor, both suppressed gambierol-induced ERK1/2 activation, further confirming the role of type I mGluR-mediated signaling in the observed ERK1/2 activation. Finally, we found that gambierol produced a concentration-dependent stimulation of neurite outgrowth that was mimicked by 4-aminopyridine, a universal potassium channel inhibitor. Considered together, these data demonstrate that gambierol alters both Ca(2+) signaling and neurite outgrowth in cerebrocortical neurons as a consequence of blockade of Kv channels., (Copyright © 2014 by The American Society for Pharmacology and Experimental Therapeutics.)

Published

2014

19. The synthesis of indoline and benzofuran scaffolds using a Suzuki-Miyaura coupling/oxidative cyclization strategy.

Author

Jana S and Rainier JD

Subjects

Benzofurans chemistry, Catalysis, Cyclization, Indoles chemistry, Molecular Structure, Oxidation-Reduction, Benzofurans chemical synthesis, Indoles chemical synthesis

Abstract

The generation of indolines and benzofurans from the combination of Suzuki-Miyaura coupling reactions with oxidative cyclizations is described.

Published

2013

20. The ladder-shaped polyether toxin gambierol anchors the gating machinery of Kv3.1 channels in the resting state.

Author

Kopljar I, Labro AJ, de Block T, Rainier JD, Tytgat J, and Snyders DJ

Subjects

Action Potentials drug effects, Animals, Binding Sites drug effects, Cell Line, Fibroblasts drug effects, Fibroblasts metabolism, Kinetics, Membrane Potentials drug effects, Mice, Permeability drug effects, Potassium Channels, Voltage-Gated metabolism, Structure-Activity Relationship, Ciguatoxins pharmacology, Ion Channel Gating drug effects, Shaw Potassium Channels metabolism

Abstract

Voltage-gated potassium (Kv) and sodium (Nav) channels are key determinants of cellular excitability and serve as targets of neurotoxins. Most marine ciguatoxins potentiate Nav channels and cause ciguatera seafood poisoning. Several ciguatoxins have also been shown to affect Kv channels, and we showed previously that the ladder-shaped polyether toxin gambierol is a potent Kv channel inhibitor. Most likely, gambierol acts via a lipid-exposed binding site, located outside the K(+) permeation pathway. However, the mechanism by which gambierol inhibits Kv channels remained unknown. Using gating and ionic current analysis to investigate how gambierol affected S6 gate opening and voltage-sensing domain (VSD) movements, we show that the resting (closed) channel conformation forms the high-affinity state for gambierol. The voltage dependence of activation was shifted by >120 mV in the depolarizing direction, precluding channel opening in the physiological voltage range. The (early) transitions between the resting and the open state were monitored with gating currents, and provided evidence that strong depolarizations allowed VSD movement up to the activated-not-open state. However, for transition to the fully open (ion-conducting) state, the toxin first needed to dissociate. These dissociation kinetics were markedly accelerated in the activated-not-open state, presumably because this state displayed a much lower affinity for gambierol. A tetrameric concatemer with only one high-affinity binding site still displayed high toxin sensitivity, suggesting that interaction with a single binding site prevented the concerted step required for channel opening. We propose a mechanism whereby gambierol anchors the channel's gating machinery in the resting state, requiring more work from the VSD to open the channel. This mechanism is quite different from the action of classical gating modifier peptides (e.g., hanatoxin). Therefore, polyether toxins open new opportunities in structure-function relationship studies in Kv channels and in drug design to modulate channel function.

Published

2013

21. Total synthesis of brevenal.

Author

Zhang Y, Rohanna J, Zhou J, Iyer K, and Rainier JD

Subjects

Alkenes chemistry, Cyclization, Epoxy Compounds chemistry, Marine Toxins chemical synthesis, Dinoflagellida chemistry, Ethers chemical synthesis, Polymers chemical synthesis

Abstract

This Article describes the total synthesis of the marine ladder toxin brevenal utilizing a convergent synthetic strategy. Critical to the success of this work was the use of olefinic-ester cyclization reactions and the utilization of glycal epoxides as precursors to C-C and C-H bonds.

Published

2011

22. Vinyl diazophosphonates as precursors to quaternary substituted indolines and cyclopentenes.

Author

Wang J, Boyarskikh V, and Rainier JD

Subjects

Azo Compounds chemistry, Catalysis, Combinatorial Chemistry Techniques, Cyclization, Cyclopentanes chemistry, Indoles chemistry, Molecular Structure, Organophosphonates chemistry, Vinyl Compounds chemistry, Azo Compounds chemical synthesis, Cyclopentanes chemical synthesis, Organometallic Compounds chemistry, Organophosphonates chemical synthesis, Vinyl Compounds chemical synthesis

Abstract

Vinyl diazophosphonates can be stereoselectively synthesized and, depending upon their substitution pattern, undergo intramolecular C-H insertion reactions or sulfonium ylide rearrangements when exposed to Rh(2)(OAc)(4).

Published

2011

23. Cyclopropylazetoindolines as precursors to C(3)-quaternary-substituted indolines.

Author

Espejo VR, Li XB, and Rainier JD

Subjects

Stereoisomerism, Substrate Specificity, Carbon chemistry, Indoles chemistry

Abstract

This manuscript describes the generation and use of a cyclopropylazetoindoline, a novel fused heterocycle, in coupling reactions with hetero- and carbon nucleophiles to give C(3)-quaternary-substituted pyrroloindolines.

Published

2010

24. Total synthesis of kapakahine E and F.

Author

Espejo VR and Rainier JD

Subjects

Dimerization, Indoles chemistry, Peptides, Cyclic chemical synthesis

Abstract

The total synthesis of the cyclic peptides kapakahine E and F using bromopyrroloindoline heterodimerization reactions, indoline to alpha-carboline rearrangements, and Negishi coupling reactions is described.

Published

2010

25. ASIC1 and ASIC3 play different roles in the development of Hyperalgesia after inflammatory muscle injury.

Author

Walder RY, Rasmussen LA, Rainier JD, Light AR, Wemmie JA, and Sluka KA

Subjects

Acid Sensing Ion Channels, Animals, Carrageenan pharmacology, Enzyme Inhibitors pharmacology, Female, Foot physiopathology, Ganglia, Spinal cytology, Ganglia, Spinal metabolism, Hyperalgesia etiology, Inflammation Mediators pharmacology, Isoquinolines pharmacology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Muscle, Skeletal physiopathology, Myositis chemically induced, Myositis complications, Naphthalenes pharmacology, Nociceptors cytology, Nociceptors metabolism, RNA, Messenger metabolism, Sensory Receptor Cells cytology, Sensory Receptor Cells metabolism, Hyperalgesia metabolism, Hyperalgesia physiopathology, Muscle, Skeletal metabolism, Myositis metabolism, Nerve Tissue Proteins genetics, Sodium Channels genetics

Abstract

Unlabelled: Acid-sensing ion channels (ASICs) respond to acidosis that normally occurs after inflammation. We examined the expression of ASIC1, ASIC2, and ASIC3 mRNAs in lumbar dorsal root ganglion neurons before and 24 hours after carrageenan-induced muscle inflammation. Muscle inflammation causes bilateral increases of ASIC2 and ASIC3 but not ASIC1 (neither ASIC1a nor ASIC1b) mRNA, suggesting differential regulation of ASIC1 versus ASIC2 and ASIC3 mRNA. Similar mRNA increases were observed after inflammation in knockout mice: ASIC2 mRNA increases in ASIC3-/- mice; ASIC2 and ASIC3 mRNAs increase in ASIC1-/- mice. Prior behavioral studies in ASIC3-/- mice showed deficits in secondary hyperalgesia (increased response to noxious stimuli outside the site of injury) but not primary hyperalgesia (increased response to noxious stimuli at the site of injury). In this study, we show that ASIC1-/- mice do not develop primary muscle hyperalgesia but develop secondary paw hyperalgesia. In contrast, and as expected, ASIC3-/- mice develop primary muscle hyperalgesia but do not develop secondary paw hyperalgesia. The pharmacological utility of the nonselective ASIC inhibitor A-317567, given locally, was tested. A-317567 reverses both the primary and the secondary hyperalgesia induced by carrageenan muscle inflammation. Thus, peripherally located ASIC1 and ASIC3 play different roles in the development of hyperalgesia after muscle inflammation., Perspective: This study shows changes in ASIC mRNA expression and behavioral hyperalgesia of C57Bl/6 (wild type), ASIC1-/-, and ASIC3-/- mice before and after the induction of muscle inflammation. A-317567 was effective in reversing hyperalgesia in these animals, suggesting the potential of ASICs as therapeutic targets for muscle inflammatory pain., (Copyright 2010 American Pain Society. Published by Elsevier Inc. All rights reserved.)

Published

2010

26. Olefinic-amide and olefinic-lactam cyclizations.

Author

Zhou J and Rainier JD

Subjects

Catalysis, Combinatorial Chemistry Techniques, Cyclization, Molecular Structure, Alkenes chemistry, Amides chemical synthesis, Amides chemistry, Lactams chemistry

Abstract

Olefinic-amide and olefinic-lactam cyclization reactions that result in the generation of cyclic enamides are described.

Published

2009

27. A polyether biotoxin binding site on the lipid-exposed face of the pore domain of Kv channels revealed by the marine toxin gambierol.

Author

Kopljar I, Labro AJ, Cuypers E, Johnson HW, Rainier JD, Tytgat J, and Snyders DJ

Subjects

Amino Acid Sequence, Binding Sites, Models, Molecular, Molecular Sequence Data, Potassium Channels, Voltage-Gated chemistry, Sequence Homology, Amino Acid, Ciguatoxins chemistry, Marine Toxins chemistry, Potassium Channels, Voltage-Gated metabolism

Abstract

Gambierol is a marine polycyclic ether toxin belonging to the group of ciguatera toxins. It does not activate voltage-gated sodium channels (VGSCs) but inhibits Kv1 potassium channels by an unknown mechanism. While testing whether Kv2, Kv3, and Kv4 channels also serve as targets, we found that Kv3.1 was inhibited with an IC(50) of 1.2 +/- 0.2 nM, whereas Kv2 and Kv4 channels were insensitive to 1 microM gambierol. Onset of block was similar from either side of the membrane, and gambierol did not compete with internal cavity blockers. The inhibition did not require channel opening and could not be reversed by strong depolarization. Using chimeric Kv3.1-Kv2.1 constructs, the toxin sensitivity was traced to S6, in which T427 was identified as a key determinant. In Kv3.1 homology models, T427 and other molecular determinants (L348, F351) reside in a space between S5 and S6 outside the permeation pathway. In conclusion, we propose that gambierol acts as a gating modifier that binds to the lipid-exposed surface of the pore domain, thereby stabilizing the closed state. This site may be the topological equivalent of the neurotoxin site 5 of VGSCs. Further elucidation of this previously undescribed binding site may explain why most ciguatoxins activate VGSCs, whereas others inhibit voltage-dependent potassium (Kv) channels. This previously undescribed Kv neurotoxin site may have wide implications not only for our understanding of channel function at the molecular level but for future development of drugs to alleviate ciguatera poisoning or to modulate electrical excitability in general.

Published

2009

28. Acid-sensing ion channel-1a in the amygdala, a novel therapeutic target in depression-related behavior.

Author

Coryell MW, Wunsch AM, Haenfler JM, Allen JE, Schnizler M, Ziemann AE, Cook MN, Dunning JP, Price MP, Rainier JD, Liu Z, Light AR, Langbehn DR, and Wemmie JA

Subjects

Acid Sensing Ion Channels, Amygdala drug effects, Animals, Antidepressive Agents administration & dosage, Depressive Disorder psychology, Female, Isoquinolines administration & dosage, Male, Mice, Mice, Transgenic, Naphthalenes administration & dosage, Nerve Tissue Proteins deficiency, Sodium Channels deficiency, Stress, Psychological drug therapy, Stress, Psychological metabolism, Stress, Psychological psychology, Amygdala metabolism, Depressive Disorder drug therapy, Depressive Disorder metabolism, Drug Delivery Systems methods, Nerve Tissue Proteins antagonists & inhibitors, Nerve Tissue Proteins metabolism, Sodium Channels metabolism

Abstract

No animal models replicate the complexity of human depression. However, a number of behavioral tests in rodents are sensitive to antidepressants and may thus tap important underlying biological factors. Such models may also offer the best opportunity to discover novel treatments. Here, we used several of these models to test the hypothesis that the acid-sensing ion channel-1a (ASIC1a) might be targeted to reduce depression. Genetically disrupting ASIC1a in mice produced antidepressant-like effects in the forced swim test, the tail suspension test, and following unpredictable mild stress. Pharmacologically inhibiting ASIC1a also had antidepressant-like effects in the forced swim test. The effects of ASIC1a disruption in the forced swim test were independent of and additive to those of several commonly used antidepressants. Furthermore, ASIC1a disruption interfered with an important biochemical marker of depression, the ability of stress to reduce BDNF in the hippocampus. Restoring ASIC1a to the amygdala of ASIC1a(-/-) mice with a viral vector reversed the forced swim test effects, suggesting that the amygdala is a key site of ASIC1a action in depression-related behavior. These data are consistent with clinical studies emphasizing the importance of the amygdala in mood regulation, and suggest that ASIC1a antagonists may effectively combat depression.

Published

2009

29. Olefinic-lactone cyclizations to macrocycles.

Author

Rohanna JC and Rainier JD

Subjects

Cyclization, Alkenes chemistry, Lactones chemistry, Macrocyclic Compounds chemistry

Abstract

Olefinic-lactone cyclization reactions that result in the generation of macrocycles are described.

Published

2009

30. Two-directional olefinic-ester ring-closing metathesis using reduced Ti alkylidenes. A rapid entry into polycyclic ether skeletons.

Author

Zhang Y and Rainier JD

Subjects

Cyclization, Ethers chemistry, Molecular Conformation, Polycyclic Compounds chemistry, Stereoisomerism, Alkenes chemistry, Esters chemistry, Ethers chemical synthesis, Organometallic Compounds chemistry, Polycyclic Compounds chemical synthesis, Titanium chemistry

Abstract

The use of a reduced titanium ethylidene reagent in an efficient two-directional approach to polycyclic ether skeletons is described.

Published

2009

31. An expeditious synthesis of C(3)-N(1') heterodimeric indolines.

Author

Espejo VR and Rainier JD

Abstract

This paper describes the efficient and relatively simple synthesis of C(3)-N(1') heterodimeric indolines from the addition of indole nucleophiles to readily available bromopyrroloindolines.

Published

2008

32. Influence of lipid-soluble gating modifier toxins on sodium influx in neocortical neurons.

Author

Cao Z, George J, Gerwick WH, Baden DG, Rainier JD, and Murray TF

Subjects

Animals, Cells, Cultured, Dose-Response Relationship, Drug, Mice, Molecular Structure, Neocortex cytology, Neocortex metabolism, Neocortex physiology, Neurons metabolism, Neurons physiology, Neurotoxins chemistry, Sodium metabolism, Solubility, Ion Channel Gating drug effects, Lipids chemistry, Neocortex drug effects, Neurons drug effects, Neurotoxins pharmacology, Sodium Channels metabolism

Abstract

The electrical signals of neurons are fundamentally dependent on voltage-gated sodium channels (VGSCs), which are responsible for the rising phase of the action potential. An array of naturally occurring and synthetic neurotoxins have been identified that modify the gating properties of VGSCs. Using murine neocortical neurons in primary culture, we have compared the ability of VGSC gating modifiers to evoke Na+ influx. Intracellular sodium concentration ([Na+](i)) was monitored using the Na+-sensitive fluorescent dye, sodium-binding benzofuran isophthalate. All sodium channel gating modifier compounds tested produced a rapid and concentration-dependent elevation in neuronal [Na+](i). The increment in [Na+](i) exceeded 40 mM at high concentrations of brevetoxins, batrachotoxin, and the novel lipopeptide, antillatoxin. The maximal increments in neuronal [Na+](i) produced by neurotoxin site 2 alkaloids, veratridine and aconitine, and the pyrethroid deltamethrin were somewhat lower with maximal [Na+](i) increments of less than 40 mM. The rank order of efficacy of sodium channel gating modifiers was brevetoxin (PbTx)-1 > PbTx-desoxydioxolane > batrachotoxin > antillatoxin > PbTx-2 = PbTx-3 > PbTx-3alpha-naphthoate > veratridine > deltamethrin > aconitine > gambierol. These data demonstrate that the ability of sodium channel gating modifiers to act as partial agonists is shared by compounds acting at both neurotoxin sites 2 and 5. The concentration-dependent increases in [Na+](i) produced by PbTx-2, antillatoxin, veratridine, deltamethrin, aconitine, and gambierol were all abrogated by tetrodotoxin, indicating that VGSCs represent the sole pathway of Na+ entry after exposure to gating modifier neurotoxins.

Published

2008

33. Gambierol, a toxin produced by the dinoflagellate Gambierdiscus toxicus, is a potent blocker of voltage-gated potassium channels.

Author

Cuypers E, Abdel-Mottaleb Y, Kopljar I, Rainier JD, Raes AL, Snyders DJ, and Tytgat J

Subjects

Animals, Ciguatera Poisoning, Ciguatoxins chemistry, Dose-Response Relationship, Drug, Oocytes cytology, Oocytes metabolism, Potassium Channels, Voltage-Gated metabolism, Sodium Channels metabolism, Xenopus laevis, Ciguatoxins pharmacology, Dinoflagellida chemistry, Oocytes drug effects, Potassium Channel Blockers pharmacology, Potassium Channels, Voltage-Gated drug effects, Sodium Channels drug effects

Abstract

In this study, we pharmacologically characterized gambierol, a marine polycyclic ether toxin which is produced by the dinoflagellate Gambierdiscus toxicus. Besides several other polycyclic ether toxins like ciguatoxins, this scarcely studied toxin is one of the compounds that may be responsible for ciguatera fish poisoning (CFP). Unfortunately, the biological target(s) that underlies CFP is still partly unknown. Today, ciguatoxins are described to specifically activate voltage-gated sodium channels by interacting with their receptor site 5. But some dispute about the role of gambierol in the CFP story shows up: some describe voltage-gated sodium channels as the target, while others pinpoint voltage-gated potassium channels as targets. Since gambierol was never tested on isolated ion channels before, it was subjected in this work to extensive screening on a panel of 17 ion channels: nine cloned voltage-gated ion channels (mammalian Na(v)1.1-Na(v)1.8 and insect Para) and eight cloned voltage-gated potassium channels (mammalian K(v)1.1-K(v)1.6, hERG and insect ShakerIR) expressed in Xenopus laevis oocytes using two-electrode voltage-clamp technique. All tested sodium channel subtypes are insensitive to gambierol concentrations up to 10 microM. In contrast, K(v)1.2 is the most sensitive voltage-gated potassium channel subtype with almost full block (>97%) and an half maximal inhibitory concentration (IC(50)) of 34.5 nM. To the best of our knowledge, this is the first study where the selectivity of gambierol is tested on isolated voltage-gated ion channels. Therefore, these results lead to a better understanding of gambierol and its possible role in CFP and they may also be useful in the development of more effective treatments.

Published

2008

34. Harnessing glycal-epoxide rearrangements: the generation of the AB, EF, and IJ rings of adriatoxin.

Author

Akoto CO and Rainier JD

Subjects

Molecular Structure, Oxocins chemical synthesis, Epoxy Compounds chemistry, Glycosides chemistry, Oxocins chemistry

Published

2008

35. Highly diastereoselective sulfonium ylide rearrangements to quaternary substituted indolines.

Author

Boyarskikh V, Nyong A, and Rainier JD

Published

2008

36. Olefinic ester and diene ring-closing metathesis using a reduced titanium alkylidene.

Author

Iyer K and Rainier JD

Subjects

Chemistry, Organic methods, Ethers chemistry, Models, Chemical, Alkenes chemistry, Esters chemistry, Polyenes chemistry, Titanium chemistry

Published

2007

37. Gambierol acts as a functional antagonist of neurotoxin site 5 on voltage-gated sodium channels in cerebellar granule neurons.

Author

LePage KT, Rainier JD, Johnson HW, Baden DG, and Murray TF

Subjects

Animals, Animals, Newborn, Binding Sites, Calcium metabolism, Cell Survival drug effects, Cells, Cultured, Cerebellum metabolism, Marine Toxins pharmacology, Molecular Structure, Neurons metabolism, Oxocins, Rats, Rats, Sprague-Dawley, Synaptosomes drug effects, Synaptosomes metabolism, Cerebellum drug effects, Ciguatoxins pharmacology, Ethers, Cyclic pharmacology, Neurons drug effects, Polycyclic Compounds pharmacology, Sodium Channel Blockers pharmacology, Sodium Channels metabolism

Abstract

The marine toxin gambierol, a polyether ladder toxin derived from the marine dinoflagellate Gambierdiscus toxicus, was evaluated for interaction with voltage-gated sodium channels (VGSCs) in cerebellar granule neuron (CGN) cultures. At concentrations ranging from 10 nM to 10 microM, gambierol alone had no effect on the intracellular Ca2+ concentration [Ca2+]i of exposed CGN cultures. Furthermore, there was no evidence of neurotoxicity in CGN cultures exposed for 2 h to gambierol (1 nM-10 microM). However, gambierol was a potent inhibitor (IC50 = 189 nM) of the elevation of [Ca2+]i that accompanies exposure of CGN cultures to the VGSC activator brevetoxin-2 (PbTx-2). To further explore the potential interaction of gambierol with VGSCs, the influence of gambierol on PbTx-2-induced neurotoxicity was assessed. Gambierol reduced the PbTx-2-induced efflux of lactate dehydrogenase in exposed CGN cultures in a concentration-dependent manner (IC50 = 471 nM). It is noteworthy that the potencies of gambierol as an inhibitor of both PbTx-2-induced Ca2+ influx and cytotoxicity were coincident. Finally, the inhibitory effects of gambierol on PbTx-2-induced elevation of [Ca2+]i were compared with those of brevenal, a natural inhibitor of the toxic effects of brevetoxin isolated from cultures of Karina brevis. Like gambierol, brevenal inhibited PbTx-2-induced elevation of [Ca2+]i in a concentration-dependent manner (IC50 = 108.6 nM). These results provide evidence for gambierol acting as a functional antagonist of neurotoxin site 5 on neuronal VGSCs.

Published

2007

38. TRPV1 as a key determinant in ciguatera and neurotoxic shellfish poisoning.

Author

Cuypers E, Yanagihara A, Rainier JD, and Tytgat J

Subjects

Animals, Ciguatera Poisoning etiology, Ciguatoxins chemistry, Ethers, Cyclic chemistry, Humans, Marine Toxins chemistry, Marine Toxins poisoning, Oxocins chemistry, Oxocins poisoning, Patch-Clamp Techniques, Polycyclic Compounds chemistry, Shellfish, Xenopus laevis, Ciguatoxins pharmacology, Ethers, Cyclic pharmacology, Marine Toxins pharmacology, Oxocins pharmacology, Polycyclic Compounds pharmacology, TRPV Cation Channels metabolism

Abstract

Ciguatera fish poisoning and neurotoxic shellfish poisoning are distinct clinical entities characterized by gastrointestinal and neurological disturbances, following the consumption of certain reef fish and shellfish containing toxic polyether compounds sporadically present in certain toxic marine dinoflagellates. The biotransformation and bioaccumulation of gambierol and brevetoxin, and their congeners, are believed to be involved in the pathogenesis of these "food-chain diseases", for which no effective treatments are available. Here, we describe for the first time the potent effect of gambierol and brevetoxin on TRPV1 channels, a key player in thermal and pain sensation. Our findings may lead to promising new therapeutic interventions.

Published

2007

39. Synthesis of an A-E gambieric acid subunit with use of a C-glycoside centered strategy.

Author

Roberts SW and Rainier JD

Subjects

Animals, Ciguatoxins metabolism, Dinoflagellida metabolism, Ethers, Cyclic metabolism, Molecular Structure, Ciguatoxins chemistry, Ethers, Cyclic chemistry

Abstract

This paper describes our synthesis of the A-E subunit of gambieric acid (GA) in addition to the synthesis of the A-ring and the C-E tricycle. The use of an enol ether-olefin RCM strategy to couple the A and C-E subunits and, in the process, generate the B-ring is noteworthy.

Published

2007

40. The role of asynchronous bond formation in the diastereoselective epoxidation of cyclic enol ethers: a density functional theory study.

Author

Orendt AM, Roberts SW, and Rainier JD

Subjects

Cyclization, Epoxy Compounds chemical synthesis, Epoxy Compounds chemistry, Ethers, Cyclic chemical synthesis, Models, Molecular, Molecular Structure, Oxepins chemical synthesis, Oxepins chemistry, Pyrans chemistry, Stereoisomerism, Thermodynamics, Ethers, Cyclic chemistry, Models, Chemical, Pyrans chemical synthesis

Abstract

Density functional theory (DFT) (Becke3LYP functional and the D95 basis set) was used to study the influence of substitution on the dimethyldioxirane epoxidation reaction of six- and seven-membered cyclic enol ethers. In agreement with our previously reported experimental results, the calculations predict that substitution on the cyclic enol ether influences the level of diastereoselectivity. Apparent only from the calculations is that the degree of synchronicity in the transition state is important in the diastereoselectivity.

Published

2006

41. 2-thioindoles as precursors to spiro-fused indolines: synthesis of (+/-)-dehaloperophoramidine.

Author

Sabahi A, Novikov A, and Rainier JD

Subjects

Crystallography, X-Ray, Cyclization, Heterocyclic Compounds, 4 or More Rings chemistry, Hydrocarbons, Halogenated chemistry, Models, Molecular, Molecular Structure, Indoles chemistry, Sulfhydryl Compounds chemistry

Published

2006

42. Total synthesis of gambierol: subunit coupling and completion.

Author

Johnson HW, Majumder U, and Rainier JD

Subjects

Catalysis, Cyclization, Esters chemical synthesis, Indicators and Reagents, Ciguatoxins chemical synthesis, Ethers, Cyclic chemical synthesis, Polycyclic Compounds chemical synthesis

Abstract

The preceding manuscript detailed our synthesis of the gambierol A-C and F-H ring precursors. Reported herein is a description of the coupling of the two precursors and the conversion of the coupled material into gambierol. Coupling of the subunits involved ester formation, enol ether RCM, and mixed thioketal formation and reduction. By employing this strategy we were able to bring highly advanced subunits into the coupling and, as a result, we were able to minimize the number of post-coupling transformations required to complete gambierol. At the completion of the synthesis, we generated 7.5 mg (1.5 % overall yield) of (-)-gambierol in 44 steps (longest linear sequence).

Published

2006

43. Total synthesis of gambierol: the generation of the A-C and F-H subunits by using a C-glycoside centered strategy.

Author

Majumder U, Cox JM, Johnson HW, and Rainier JD

Subjects

Ciguatera Poisoning, Cyclization, Epoxy Compounds chemical synthesis, Ethers chemistry, Indicators and Reagents, Magnetic Resonance Spectroscopy, Polycyclic Compounds chemistry, Ciguatoxins chemical synthesis, Ethers, Cyclic chemical synthesis, Glycosides chemical synthesis, Marine Toxins chemical synthesis, Polycyclic Compounds chemical synthesis

Abstract

Gambierol, a representative of the marine ladder toxin family, consists of eight ether rings, 18 stereocenters, and two challenging pyranyl rings having methyl groups that are in a 1,3-diaxial orientation to one another. Herein we describe the generation of gambierol's A-C and F-H ring systems and demonstrate the versatility of the glycosyl anhydride, enol ether-olefin RCM strategy to fused polycyclic ethers. This work has both enabled us to generate sufficient quantities of the gambierol precursors and has enabled us to better understand the chemical transformations that were key to these efforts. Fundamental work included efforts to C-glycosides and C-ketosides, Claisen rearrangements, and enol ether-olefin RCM reactions.

Published

2006

44. Ring-opening/ring-closing metathesis (RORCM) reactions of 7-Azanorbornene derivatives. An entry into perhydroindolines.

Author

Liu Z and Rainier JD

Abstract

[reaction: see text]. 7-Azanorbornenes undergo ring-opening/ring-closing metathesis upon treatment with the second-generation Grubbs catalyst to give hexahydroindoline derivatives.

Published

2006

45. Substitution and remote protecting group influence on the oxidation/addition of alpha-substituted 1,2-anhydroglycosides: a novel entry into C-ketosides.

Author

Roberts SW and Rainier JD

Subjects

Catalysis, Indicators and Reagents, Molecular Structure, Oxidation-Reduction, Glycosides chemistry, Organosilicon Compounds chemistry

Abstract

[reaction: see text] C-Ketosides are valuable intermediates in chemical synthesis and as glycoside mimics. This manuscript describes the efficient generation of these substrates from alpha-alkyl-substituted glycals and an oxidative, C-C bond-forming sequence where the choice of C(3) protecting group was critical.

Published

2005

46. The total synthesis of gambierol.

Author

Johnson HW, Majumder U, and Rainier JD

Subjects

Animals, Dinoflagellida chemistry, Glycosides chemistry, Ciguatoxins chemical synthesis, Ethers, Cyclic chemical synthesis, Polycyclic Compounds chemical synthesis

Abstract

This communication describes the total synthesis of the marine polyether toxin, gambierol. This work couples our iterative C-glycoside/enol ether-olefin metathesis strategy to the subunits with a unique olefin metathesis/carbonyl olefination reaction to bring the subunits together.

Published

2005

47. The diastereoselective synthesis of quaternary substituted thioindolines from sulfur ylide intermediates.

Author

Nyong AM and Rainier JD

Subjects

Aza Compounds chemistry, Catalysis, Indoles chemistry, Molecular Structure, Rhodium chemistry, Stereoisomerism, Vinyl Compounds chemistry, Indoles chemical synthesis, Sulfur Compounds chemistry

Abstract

The Rh(II)-catalyzed coupling of chiral 2-thiopyranylindoles with vinyl diazoacetates results in the generation of indolines having quaternary substitution at C3 in high diastereoselectivity.

Published

2005

48. Regioselective ring-opening/cross-metathesis reactions of norbornene derivatives with electron-rich olefins.

Author

Liu Z and Rainier JD

Abstract

This manuscript describes facile ring-opening/cross-metathesis (ROCM) reactions between unsymmetrical norbornene derivatives and electron-rich olefins in the presence of the second-generation Grubbs' catalyst to generate highly substituted furans and pyrroles.

Published

2005

49. Highly regioselective ring-opening/cross-metathesis reactions of 2-sulfonylnorbornene derivatives.

Author

Weeresakare GM, Liu Z, and Rainier JD

Abstract

Tandem ring-opening/cross-metathesis (ROM/CM) reactions of norbornenes can be a powerful entry into highly substituted organic molecules. However, their utility has been limited largely to symmetrical norbornenes because of the general lack of regioselective variants of these reactions. This manuscript describes our successful attempts to address this issue through the use of a sulfone to direct the ROM/CM reaction of a 7-azanorbornene and a 7-oxanorbornene.

Published

2004

50. Tremorgenic indole alkaloids. The total synthesis of (-)-penitrem D.

Author

Smith AB 3rd, Kanoh N, Ishiyama H, Minakawa N, Rainier JD, Hartz RA, Cho YS, Cui H, and Moser WH

Subjects

Penicillium chemistry, Indole Alkaloids chemistry, Mycotoxins chemical synthesis

Abstract

A convergent, stereocontrolled total synthesis of the architecturally complex tremorgenic indole alkaloid (-)-penitrem D (4) has been achieved. Highlights of the synthesis include an efficient, asymmetric synthesis of the western hemisphere; the stereocontrolled assembly of the I-ring; discovery of a novel autoxidation to introduce the C(22) tertiary hydroxyl group, required for tremorgenic activity; union of fully elaborated eastern and western hemispheres, exploiting an indole synthetic protocol developed expressly for this purpose; and a late-stage, stereoselective construction of the A and F rings exploiting a Sc(OTf)(3-)promoted reaction cascade. The longest linear sequence leading to (-)-penitrem D (4) was 43 steps.

Published

2003