30 research outputs found
A photochemical flow reactor for large scale syntheses of aglain and rocaglate natural product analogues
Published in final edited form as: Bioorg Med Chem. 2017 Dec 1; 25(23): 6197–6202. Published online 2017 Jun 11. doi: [10.1016/j.bmc.2017.06.010]Herein, we report the development of continuous flow photoreactors for large scale ESIPT-mediated [3+2]-photocycloaddition of 2-(p-methoxyphenyl)-3-hydroxyflavone and cinnamate-derived dipolarophiles. These reactors can be efficiently numbered up to increase throughput two orders of magnitude greater than the corresponding batch reactions.Financial support from Boston University and National Institutes of Health (ABB R33AI105944) is gratefully acknowledged. We thank Dr. Norman Lee (Boston University) for high-resolution mass spectrometry data. NMR (CHE-0619339) and MS (CHE-0443618 facilities at Boston University are supported by the NSF. (Boston University; ABB R33AI105944 - National Institutes of Health; CHE-0619339 - NSF; CHE-0443618 - NSF)Accepted manuscrip
Remodelling of the natural product fumagillol employing a reaction discovery approach
In the search for new biologically active molecules, diversity-oriented synthetic strategies break through the limitation of traditional library synthesis by sampling new chemical space. Many natural products can be regarded as intriguing starting points for diversity-oriented synthesis, wherein stereochemically rich core structures may be reorganized into chemotypes that are distinctly different from the parent structure. Ideally, to be suited to library applications, such transformations should be general and involve few steps. With this objective in mind, the highly oxygenated natural product fumagillol has been successfully remodelled in several ways using a reaction-discovery-based approach. In reactions with amines, excellent regiocontrol in a bis-epoxide opening/cyclization sequence can be obtained by size-dependent interaction of an appropriate catalyst with the parent molecule, forming either perhydroisoindole or perhydroisoquinoline products. Perhydroisoindoles can be further remodelled by cascade processes to afford either morpholinone or bridged 4,1-benzoxazepine-containing structures.P50 GM067041 - NIGMS NIH HHS; P50 GM067041-07 - NIGMS NIH HHS; P50 GM067041-08 - NIGMS NIH HHS; P50 GM067041-09 - NIGMS NIH HH
Channeling macrophage polarization by rocaglates increases macrophage resistance to Mycobacterium tuberculosis
Macrophages contribute to host immunity and tissue homeostasis via alternative activation programs. M1-like macrophages control intracellular bacterial pathogens and tumor progression. In contrast, M2-like macrophages shape reparative microenvironments that can be conducive for pathogen survival or tumor growth. An imbalance of these macrophages phenotypes may perpetuate sites of chronic unresolved inflammation, such as infectious granulomas and solid tumors. We have found that plant-derived and synthetic rocaglates sensitize macrophages to low concentrations of the M1-inducing cytokine IFN-gamma and inhibit their responsiveness to IL-4, a prototypical activator of the M2-like phenotype. Treatment of primary macrophages with rocaglates enhanced phagosome-lysosome fusion and control of intracellular mycobacteria. Thus, rocaglates represent a novel class of immunomodulators that can direct macrophage polarization toward the M1-like phenotype in complex microenvironments associated with hypofunction of type 1 and/or hyperactivation of type 2 immunity, e.g., chronic bacterial infections, allergies, and, possibly, certain tumors.R35 GM118173 - NIGMS NIH HHS; R01 HL126066 - NHLBI NIH HHS; R01 GM120272 - NIGMS NIH HHS; R01 CA218500 - NCI NIH HHS; R01 HL133190 - NHLBI NIH HHS; R33 AI105944 - NIAID NIH HHSPublished versio
Synthesis of azaphilone-based chemical libraries.
International audienceThe synthesis of azaphilone scaffolds that have been further diversified by cross coupling acylation and amine addition is reported. Methodology development also led to novel modifications including C5 acetoxylation and condensations producing isoquinolin-6(7H) structures. Overall, the library synthesis afforded three azaphilone sublibraries, including vinylogous pyridones which project diversity elements in four sectors of the azaphilone core
One-pot synthesis of epoxides from benzyl alcohols and aldehydes
A one-pot synthesis of epoxides from commercially available benzyl alcohols and aldehydes is described. The reaction proceeds through in situ generation of sulfonium salts from benzyl alcohols and their subsequent deprotonation for use in Corey–Chaykovsky epoxidation of aldehydes. The generality of the method is exemplified by the synthesis of 34 epoxides that were made from an array of electronically and sterically varied alcohols and aldehydes
Regioselective and Enantioselective Intermolecular Buchner Ring Expansions in Flow
The first example of a regioselective
and enantioselective intermolecular
Buchner ring expansion is reported using continuous flow. The practicality
and scope of the reaction are greatly improved under flow conditions.
Reactions of ethyl diazoacetate with symmetric and nonsymmetric arenes
afford cycloheptatrienes in good yield and excellent regioselectivity.
The first example of an asymmetric intermolecular Buchner reaction
is demonstrated with disubstituted diazo esters in good to excellent
enantioselectivity. The asymmetric reactions proceed with absolute
regioselectivity to afford cycloheptatrienes with an all-carbon quaternary
center
Synthesis of Azaphilone-Based Chemical Libraries
The synthesis of azaphilone scaffolds that have been
further diversified
by cross coupling acylation and amine addition is reported. Methodology
development also led to novel modifications including C5 acetoxylation
and condensations producing isoquinolin-6Â(7H) structures. Overall,
the library synthesis afforded three azaphilone sublibraries, including
vinylogous pyridones which project diversity elements in four sectors
of the azaphilone core
Redesign of a Pyrylium Photoredox Catalyst and Its Application to the Generation of Carbonyl Ylides
We
report the exploration into photoredox generation of carbonyl
ylides from benzylic epoxides using newly designed 4-mesityl-2,6-diphenylpyrylium
tetrafluoroborate (MDPT) and 4-mesityl-2,6-di-<i>p</i>-tolylpyrylium
tetrafluoroborate (MDÂ(<i>p</i>-tolyl)ÂPT) catalysts. These
catalysts are excited at visible wavelengths, are highly robust, and
exhibit some of the highest oxidation potentials reported. Their utility
was demonstrated in the mild and efficient generation of carbonyl
ylides from benzylic epoxides that otherwise could not be carried
out by current common photoredox catalysts