Mantosh K. Sinha scite author profile

A practical method for the separation and purification of cucurbituril (CB) hexamers was developed on the basis of affinity chromatography using aminopentylaminomethylated polystyrene beads. This recyclable resin, which can be used repeatedly, facilitates the general preparation of cucurbituril derivatives and compensates for the usually moderate yields and mixed products that characterize the acid-catalyzed synthesis of CB derivatives. This technique allows convenient, rapid isolation of rare substituted cucurbiturils, including hexacyclohexanocucurbit[6]uril and dodecamethylcucurbit[6]uril. [reaction: see text]

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Bistable Cucurbituril Rotaxanes Without Stoppers

Sinha

Reany

Yefet

et al. 2012

Chemistry A European J

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Bistable rotaxanes are important design elements of molecular devices for a broad range of applications, such as controlled drug release, molecular rotary motors, and chemical sensors. The host-guest complexes of cucurbit[6]uril and 1,4-bis(alkylaminomethyl)benzene were found to exhibit two stable binding modes with an unexpectedly high barrier between them. Their structural and dynamic properties, kinetic and thermodynamic parameters, as well as different chemical reactivity towards the azide-alkyne [3+2] cycloaddition reaction (click chemistry), were discovered by NMR spectroscopy, X-ray crystallography, and isothermal titration microcalorimetry. The highly stable 2:1 complex, which is formed at room temperature, was found to be a kinetic product, which may be converted to the thermodynamic 1:1 complex upon prolonged heating to 100 °C. The latter is a very stable rotaxane despite the fact that it lacks bulky end groups.

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Localized Multi‐Component Delivery Platform Generates Local and Systemic Anti‐Tumor Immunity

Acharya

Sinha

Ratay

et al. 2016

Adv Funct Materials

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As tumors employ complementary overlapping and/or independent mechanisms to evade immune surveillance, many emerging cancer immunotherapies attempt to target multiple pathways to eradicate malignant cells. Although modulation of independent pathways by simultaneous administration of multiple immune modulators (e.g., checkpoint inhibitors, cytokines, and growth factors) has shown great promise, the clinical impact remains limited due to severe toxicity associated with high systemic levels of many of these drugs. Therefore, novel platforms for efficient delivery of multi‐component therapies at lower effective doses would be enabling. Here, a drug delivery platform called immunomodulatory molecule delivery system (iMods), which provides sustained extracellular delivery of a checkpoint inhibitor (anti‐PD‐L1) and simultaneously, targeted intracellular delivery of a tumor antigen (OVA) along with adjuvant (poly(I:C)), and the indoleamine deoxygenase inhibitor 1‐MT is described. In melanoma tumor‐bearing mice, combinatorial delivery of these factors with iMods leads to regression of both treated and untreated (contralateral) melanoma tumors and 100% survival. These promising therapeutic outcomes are attributed to significantly enhanced ratios of anti‐tumor CD8 T‐cell/tumor‐protective regulatory T‐cell (Treg) in tumors and tumor draining lymph nodes. Overall, the iMods delivery platform described here represents a promising advance in multi‐factor cancer immunotherapy.

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Switchable Cucurbituril–Bipyridine Beacons

Sinha

Reany

Parvari

et al. 2010

Chemistry A European J

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4-Aminobipyridine derivatives form strong inclusion complexes with cucurbit[6]uril, exhibiting remarkably large enhancements in fluorescence intensity and quantum yields. The remarkable complexation-induced pK(a) shift (DeltapK(a)=3.3) highlights the strong charge-dipole interaction upon binding. The reversible binding phenomenon can be used for the design of switchable beacons that can be incorporated into cascades of binding networks. This concept is demonstrated herein by three different applications: 1) a switchable fluorescent beacon for chemical sensing of transition metals and other ligands; 2) direct measurement of binding constants between cucurbit[6]uril and various nonfluorescent guest molecules; and 3) quantitative monitoring of biocatalytic reactions and determination of their kinetic parameters. The latter application is illustrated by the hydrolysis of an amide catalyzed by penicillin G acylase and by the elimination reaction of a beta-cabamoyloxy ketone catalyzed by aldolase antibody 38C2.

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Efficient Assembly of Iminodicarboxamides by a “Truly” Four‐Component Reaction

et al. 2012

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Various cyclization scaffolds by a truly Ugi 4-CR

et al. 2013

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Efficient access to a large chemical space based on new scaffolds with defined 3D conformations and highly variable in the side chains is needed to find novel functional materials. Four heterocyclic scaffolds based on a four component Ugi reaction of α-amino acids, oxo components, isocyanides and primary or secondary amines suitably functionalized are described. A handful of examples are described for each scaffold.

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Tricycles by a New Ugi Variation and Pictet–Spengler Reaction in One Pot

Sinha

Khoury

Herdtweck

et al. 2013

Chemistry A European J

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Effect of alcoholic, glycolic, and polyester resin additives on the gelation of dilute solution (1%) of methylcellulose

Kundu

Sinha

et al. 2003

Carbohydrate Polymers

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Mantosh K. Sinha

Facile Purification of Rare Cucurbiturils by Affinity Chromatography

Bistable Cucurbituril Rotaxanes Without Stoppers

Localized Multi‐Component Delivery Platform Generates Local and Systemic Anti‐Tumor Immunity

Switchable Cucurbituril–Bipyridine Beacons

Efficient Assembly of Iminodicarboxamides by a “Truly” Four‐Component Reaction

Various cyclization scaffolds by a truly Ugi 4-CR

Tricycles by a New Ugi Variation and Pictet–Spengler Reaction in One Pot

Effect of alcoholic, glycolic, and polyester resin additives on the gelation of dilute solution (1%) of methylcellulose

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