Pankaj Dwivedi scite author profile

Most current therapies that target plasma membrane receptors function by antagonizing ligand binding or enzymatic activities. However, typical mammalian proteins comprise multiple domains that execute discrete but coordinated activities. Thus, inhibition of one domain often incompletely suppresses the function of a protein. Indeed, targeted protein degradation technologies, including proteolysis-targeting chimeras1 (PROTACs), have highlighted clinically important advantages of target degradation over inhibition2. However, the generation of heterobifunctional compounds binding to two targets with high affinity is complex, particularly when oral bioavailability is required3. Here we describe the development of proteolysis-targeting antibodies (PROTABs) that tether cell-surface E3 ubiquitin ligases to transmembrane proteins, resulting in target degradation both in vitro and in vivo. Focusing on zinc- and ring finger 3 (ZNRF3), a Wnt-responsive ligase, we show that this approach can enable colorectal cancer-specific degradation. Notably, by examining a matrix of additional cell-surface E3 ubiquitin ligases and transmembrane receptors, we demonstrate that this technology is amendable for ‘on-demand’ degradation. Furthermore, we offer insights on the ground rules governing target degradation by engineering optimized antibody formats. In summary, this work describes a strategy for the rapid development of potent, bioavailable and tissue-selective degraders of cell-surface proteins.

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Vitamin B12 functionalized layer by layer calcium phosphate nanoparticles: A mucoadhesive and pH responsive carrier for improved oral delivery of insulin

Verma

et al. 2016

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Covalent Functionalized Self-Assembled Lipo-Polymerosome Bearing Amphotericin B for Better Management of Leishmaniasis and Its Toxicity Evaluation

et al. 2014

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Amphotericin B remains the preferred choice for leishmanial infection, but it has limited clinical applications due to substantial dose limiting toxicities. In the present work, AmB has been formulated in lipo-polymerosome (L-Psome) by spontaneous self-assembly of synthesized glycol chitosan-stearic acid copolymer. The optimized L-Psome formulation with vesicle size of 243.5 ± 17.9 nm, PDI of 0.168 ± 0.08 and zeta potential of (+) 27.15 ± 0.46 mV with 25.59 ± 0.87% AmB loading was obtained. The field emission scanning electron microscopy (FESEM) and high resolution transmission electron microscopy (HRTEM) images suggest nearly spherical morphology of L-Psome. An in vitro study showed comparatively sustained AmB release (66.082 ± 1.73% within 24 h) and high plasma stability compared to commercial Ambisome and Fungizone, where glycol chitosan content was found to be efficient in preventing L-Psome destabilization in the presence of plasma protein. In vitro and in vivo toxicity studies revealed less toxicity of AmB-L-Psome compared to commercialized Fungizone and Ambisome favored by monomeric form of AmB within L-Psome, observed by UV-visible spectroscopy. Experimental results of in vitro (macrophage amastigote system) and in vivo (Leishmania donovani infected hamsters) illustrated the efficacy of AmB-L-Psome to augment effective antileishmanial properties supported by upregulation of Th-1 cytokines (TNF-α, IL-12 and IFN-γ) and inducible nitric oxide synthase, and downregulation of Th-2 cytokines (TGF-β, IL-10 and IL-4), measured by quantitative mRNA analysis by real time PCR (RT-PCR). Conclusively, developed L-Psome system could be a viable alternative to the current less stable, toxic commercial formulations and developed as a highly efficacious drug delivery system.

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Pankaj Dwivedi

Antibody targeting of E3 ubiquitin ligases for receptor degradation

Vitamin B12 functionalized layer by layer calcium phosphate nanoparticles: A mucoadhesive and pH responsive carrier for improved oral delivery of insulin

Covalent Functionalized Self-Assembled Lipo-Polymerosome Bearing Amphotericin B for Better Management of Leishmaniasis and Its Toxicity Evaluation

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