Your search keyword '"Zafar, Hadiqa"' showing total 14 results

1. Caspase-3-Responsive, Fluorogenic Bivalent Bottlebrush Polymers.

Author

Zafar H, Liu B, Nguyen HV, and Johnson JA

Subjects

Humans, Coumarins chemistry, Peptides chemistry, Peptides metabolism, Polyethylene Glycols chemistry, Caspase 3 metabolism, Fluorescent Dyes chemistry, Polymers chemistry

Abstract

Controlling the access of proteases to cleavable peptides placed at specific locations within macromolecular architectures represents a powerful strategy for biologically responsive materials design. Here, we report the synthesis of peptide-containing bivalent bottlebrush (co)polymers (BBPs) featuring polyethylene glycol (PEG) and 7-amino-4-methylcoumarin (AMC) pendants on each backbone repeat unit. The AMCs are linked via caspase-3-cleavable peptides which, upon enzymatic cleavage, provide a "turn-on" fluorescence signal due to the release of free AMC. Time-dependent fluorscence measurements demonstrate that the caspase-3-induced peptide cleavage and AMC release from BBPs is strongly dependent on the BBP backbone length and the AMC-peptide linker location within the BBP architecture, revealing fundamental insights into the interactions of enzymes with BBPs.

Published

2024

2. Hydrogen Peroxide-Triggered Disassembly of Boronic Ester-Cross-Linked Brush-Arm Star Polymers.

Author

Costa LC, Shieh P, Zafar H, Thiabaud G, Bobylev EO, Jasanoff A, and Johnson JA

Subjects

Reactive Oxygen Species, Polyethylene Glycols chemistry, Magnetic Resonance Imaging, Polymers, Hydrogen Peroxide

Abstract

The concentrations of reactive oxygen species (ROS), e.g., H 2 O 2 , are often elevated in diseased tissue microenvironments. Therefore, the selective detection of ROS could enable new diagnostic methods or tools for chemical biology. Here, we report the synthesis of boronic ester-bis-norbornene core-cross-linked brush-arm star polymers (BASPs) with polyethylene glycol (PEG) or PEG- branch -spirocyclohexyl nitroxide (chex) shells. Size exclusion chromatography (SEC) and dynamic light scattering (DLS) showed that these BASPs have narrowly dispersed molar masses and average hydrodynamic diameters of 23 ± 2 nm, respectively. Moreover, due to their core-shell structures, these BASPs disassemble into bottlebrush fragments with improved selectivity for H 2 O 2 over ROS such as peroxynitrite (ONOO - ) and hypochlorite ( - OCl). Finally, H 2 O 2 induced disassembly of chex-containing BASPs induces a change in transverse magnetic relaxivity that can be detected via magnetic resonance imaging (MRI). Chex-BASPs may represent a valuable new diagnostic tool for H 2 O 2 sensing.

Published

2023

3. Thiol-triggered deconstruction of bifunctional silyl ether terpolymers via an S N Ar-triggered cascade.

Author

Brown CM, Husted KEL, Wang Y, Kilgallon LJ, Shieh P, Zafar H, Lundberg DJ, and Johnson JA

Abstract

While Si-containing polymers can often be deconstructed using chemical triggers such as fluoride, acids, and bases, they are resistant to cleavage by mild reagents such as biological nucleophiles, thus limiting their end-of-life options and potential environmental degradability. Here, using ring-opening metathesis polymerization, we synthesize terpolymers of (1) a "functional" monomer ( e.g. , a polyethylene glycol macromonomer or dicyclopentadiene); (2) a monomer containing an electrophilic pentafluorophenyl (PFP) substituent; and (3) a cleavable monomer based on a bifunctional silyl ether . Exposing these polymers to thiols under basic conditions triggers a cascade of nucleophilic aromatic substitution (S N Ar) at the PFP groups, which liberates fluoride ions, followed by cleavage of the backbone Si-O bonds, inducing polymer backbone deconstruction. This method is shown to be effective for deconstruction of polyethylene glycol (PEG) based graft terpolymers in organic or aqueous conditions as well as polydicyclopentadiene (pDCPD) thermosets, significantly expanding upon the versatility of bifunctional silyl ether based functional polymers., Competing Interests: CMB, PS and JAJ are named inventors on a patent application (US provisional application no. 63/195259) filed by the Massachusetts Institute of Technology on the monomers and copolymers in this work., (This journal is © The Royal Society of Chemistry.)

Published

2023

4. Remolding and Deconstruction of Industrial Thermosets via Carboxylic Acid-Catalyzed Bifunctional Silyl Ether Exchange.

Author

Husted KEL, Brown CM, Shieh P, Kevlishvili I, Kristufek SL, Zafar H, Accardo JV, Cooper JC, Klausen RS, Kulik HJ, Moore JS, Sottos NR, Kalow JA, and Johnson JA

Abstract

Convenient strategies for the deconstruction and reprocessing of thermosets could improve the circularity of these materials, but most approaches developed to date do not involve established, high-performance engineering materials. Here, we show that bifunctional silyl ether, i.e., R'O-SiR 2 -OR'', (BSE)-based comonomers generate covalent adaptable network analogues of the industrial thermoset polydicyclopentadiene (pDCPD) through a novel BSE exchange process facilitated by the low-cost food-safe catalyst octanoic acid. Experimental studies and density functional theory calculations suggest an exchange mechanism involving silyl ester intermediates with formation rates that strongly depend on the Si-R 2 substituents. As a result, pDCPD thermosets manufactured with BSE comonomers display temperature- and time-dependent stress relaxation as a function of their substituents. Moreover, bulk remolding of pDCPD thermosets is enabled for the first time. Altogether, this work presents a new approach toward the installation of exchangeable bonds into commercial thermosets and establishes acid-catalyzed BSE exchange as a versatile addition to the toolbox of dynamic covalent chemistry.

Published

2023

5. Amethyrin-type expanded porphyrins that display anti-aromatic character upon protonation.

Author

Root HD, Mangel DN, Brewster JT 2nd, Zafar H, Samia A, Henkelman G, and Sessler JL

Abstract

The use of protonation to switch nonaromatic expanded porphyrins to their corresponding anti-aromatic forms has not been widely explored. Here, we show that free-base pyriamethyrin and dipyriamethyrin display nonaromatic character, as inferred from NMR spectroscopic analyses, their optical properties, and theoretical calculations. Addition of two protons extends the π - conjugation of these amethyrin analogues and yields formally anti-aromatic systems.

Published

2020

6. Synthesis and Characterization of a Binuclear Copper(II)-dipyriamethyrin Complex: [Cu 2 (dipyriamethyrin)(μ 2 -1,1-acetato) 2 ].

Author

Brewster JT 2nd, Root HD, Zafar H, Thiabaud GD, Sedgwick AC, He J, Lynch VM, and Sessler JL

Subjects

Molecular Structure, Coordination Complexes chemical synthesis, Coordination Complexes chemistry, Copper chemistry, Models, Molecular

Abstract

The reaction between dipyriamethyrin and copper(II) acetate [Cu(OAc) 2 ] afforded what is, to our knowledge, the first transition metal-dipyriamethyrin complex. Molecular and electronic characterization of this binuclear Cu(II) complex via EPR, UV-vis, and single crystal X-ray diffraction analysis revealed marked differences between the present constructs and previously reported binuclear copper(II) hexaphyrin species. UV-vis titration analyses provided evidence for a homotropic positive allosteric effect, wherein the binuclear species is formed without significant intermediacy of a monomeric complex.

Published

2020

7. Metallotexaphyrins as MRI-Active Catalytic Antioxidants for Neurodegenerative Disease: A Study on Alzheimer's Disease.

Author

Brewster JT 2nd, Thiabaud GD, Harvey P, Zafar H, Reuther JF, Dell'Acqua S, Johnson RM, Root HD, Metola P, Jasanoff A, Casella L, and Sessler JL

Abstract

The complex etiology of neurodegeneration continues to stifle efforts to develop effective therapeutics. New agents elucidating key pathways causing neurodegeneration might serve to increase our understanding and potentially lead to improved treatments. Here, we demonstrate that a water-soluble manganese(II) texaphyrin (MMn) is a suitable magnetic resonance imaging (MRI) contrast agent for detecting larger amyloid beta constructs. The imaging potential of MMn was inferred on the basis of in vitro studies and in vivo detection in Alzheimer's disease C. elegans models via MRI and ICP-MS. In vitro antioxidant- and cellular-based assays provide support for the notion that this porphyrin analog shows promise as a therapeutic agent able to mitigate the oxidative and nitrative toxic effects considered causal in neurodegeneration. The present report marks the first elaboration of an MRI-active metalloantioxidant that confers diagnostic and therapeutic benefit in Alzheimer's disease models without conjugation of a radioisotope, targeting moiety, or therapeutic payload., Competing Interests: The authors declare no competing interests., (© 2019 The Author(s).)

Published

2020

8. Porphyrinoid f-Element Complexes.

Author

Brewster JT 2nd, Zafar H, Root HD, Thiabaud GD, and Sessler JL

Abstract

Porphyrin and related pyrrole-containing macrocycles, collectively porphyrinoids, are versatile ligands that allow access to a multitude of coordination modes. Judicious modification of the porphyrin core as well as the pendant substituents has extended the coordination chemistry of porphyrinoids to include systems that are able to stabilize f-block element complexes with possible utility. This review focuses on our group's efforts to prepare expanded porphyrin and porphyrinogen ligands that can serve as tools to study and apply f-element metal coordination chemistry: it covers the background of the topic, selected syntheses, and application of these species in the chemical and medical sciences.

Published

2020

9. In-Plane Thorium(IV), Uranium(IV), and Neptunium(IV) Expanded Porphyrin Complexes.

Author

Brewster JT 2nd, Mangel DN, Gaunt AJ, Saunders DP, Zafar H, Lynch VM, Boreen MA, Garner ME, Goodwin CAP, Settineri NS, Arnold J, and Sessler JL

Abstract

Here we report the first series of in-plane thorium(IV), uranium(IV), and neptunium(IV) expanded porphyrin complexes. These actinide (An) complexes were synthesized using a hexa-aza porphyrin analogue, termed dipyriamethyrin, and the nonaqueous An(IV) precursors, ThCl 4 (DME) 2 , UCl 4 , and NpCl 4 (DME) 2 . The molecular and electronic structures of the ligand, each An(IV) complex, and a corresponding uranyl(VI) complex were characterized using nuclear magnetic resonance (NMR) and UV-vis spectroscopies as well as single-crystal X-ray diffraction analysis. Computational analyses of these complexes, coupled to their structural features, provide support for the conclusion that a greater degree of covalency in the ligand-cation orbital interactions arises as the early actinide series is traversed from Th(IV) to U(IV) and Np(IV). The axial ligands in the present An(IV) complexes proved labile, allowing for the electronic features of these complexes to be further modified.

Published

2019

10. Correction: UO 2 2+ -mediated ring contraction of pyrihexaphyrin: synthesis of a contracted expanded porphyrin-uranyl complex.

Author

Brewster JT, Root HD, Mangel D, Samia A, Zafar H, Sedgwick AC, Lynch VM, and Sessler JL

Abstract

[This corrects the article DOI: 10.1039/C9SC01593K.]., (This journal is © The Royal Society of Chemistry 2019.)

Published

2019

11. UO 2 2+ -mediated ring contraction of pyrihexaphyrin: synthesis of a contracted expanded porphyrin-uranyl complex.

Author

Brewster JT 2nd, Root HD, Mangel D, Samia A, Zafar H, Sedgwick AC, Lynch VM, and Sessler JL

Abstract

A new mixed hexaphyrin, pyrihexaphyrin (0.1.0.0.1.0) ( 1 ), was prepared via an acid catalyzed cyclization between 5,5'-(pyridine-2,6-diyl)bis(pyrrole-2-carbaldehyde) ( 2 ) and terpyrrole ( 3 ). This expanded porphyrin undergoes a ring contraction upon metallation with uranyl silylamide [UO 2 [N(SiMe 3 ) 2 ] 2 ] under anaerobic conditions followed by purification over basic aluminum oxide exposed to air. The uranyl-contracted pyrihexaphyrin (0.0.0.0.1.0) complex ( 4 ) produced as a result contains a unique structural architecture and possesses a formally 22 π-electron globally aromatic periphery, as inferred from NMR spectroscopy, single crystal X-ray diffraction, and computational analyses. Support for the proposed contraction mechanism came from experimental data and DFT calculations. Proton NMR and mass spectroscopic analysis provided the first insight into expanded porphyrin-mediated activation of the uranyl dication (UO 2 2+ ).

Published

2019

12. Gram-Scale Synthesis of a Bench-Stable 5,5″-Unsubstituted Terpyrrole.

Author

Brewster JT 2nd, Zafar H, McVeigh M, Wight CD, Anguera G, Steinbrück A, Lynch VM, and Sessler JL

Subjects

Chemistry Techniques, Synthetic, Drug Stability, Pyrroles chemical synthesis, Pyrroles chemistry

Abstract

The controlled preparation of higher order oligopyrrolic species holds broad utility across the chemical and material sciences. Here, we describe the gram-scale synthesis of a bench-stable 5,5″-unsubstituted terpyrrole in excellent yield via a tandem Suzuki cross-coupling with in situ deprotection. The solution and solid-state stability as well as UV-vis, fluorescence, and single crystal X-ray diffraction structure are also detailed.

Published

2018

13. Synthesis and Characterization of a Binuclear Copper(II) Naphthoisoamethyrin Complex Displaying Weak Antiferromagnetic Coupling.

Author

Brewster JT 2nd, Anguera G, Moore MD, Dolinar BS, Zafar H, Thiabaud GD, Lynch VM, Humphrey SM, and Sessler JL

Abstract

The reaction between a naphthylbipyrrole-containing hexaphyrin-type expanded porphyrin and copper acetate affords a bench-stable dicopper(II) complex. UV-vis spectroscopy, cyclic voltammetry, and X-ray crystallographic analysis measurements provide support for the conclusion that this complex displays aromatic features. A weak antiferromagnetic exchange interaction between the binuclear copper(II) ions is evidenced by variable-temperature electron paramagnetic resonance and by fitting of the bulk magnetic susceptibility to a dimer model, yielding J = -5.1 cm -1 .

Published

2017

14. Naphthylbipyrrole-Containing Amethyrin Analogue: A New Ligand for the Uranyl (UO 2 2+ ) Cation.

Author

Anguera G, Brewster JT 2nd, Moore MD, Lee J, Vargas-Zúñiga GI, Zafar H, Lynch VM, and Sessler JL

Abstract

Using naphthobipyrrole as a functional building block, a new expanded porphyrin, naphthoisoamethyrin, was prepared in 85% yield under acid-catalyzed [4 + 2] MacDonald coupling conditions. Treatment of naphthoisoamethyrin with the nonaqueous uranyl silylamide salt [UO 2 [N(SiMe 3 ) 2 ] 2 ·2THF] yielded the corresponding uranyl complex. Upon metalation, naphthoisoamethyrin undergoes a two-electron oxidation to yield a formal 22 π-electron aromatic species, as inferred from 1 H NMR and UV-vis spectroscopy, as well as cyclic voltammetry.

Published

2017