Your search keyword '"Sarkar, Priyanka"' showing total 4 results

1. Hydroxyl-Rich Hydrophilic Endocytosis-Promoting Peptide with No Positive Charge

Author

Wang, Siwen, Li, Zhonghan, Aispuro, Desiree, Guevara, Nathan, Van Valkenburgh, Juno, Chen, Boxi, Zhou, Xiaoyun, McCarroll, Matthew N, Ji, Fei, Cong, Xu, Sarkar, Priyanka, Chaudhuri, Rohit, Guo, Zhili, Perkins, Nicole P, Shao, Shiqun, Sello, Jason K, Chen, Kai, and Xue, Min

Subjects

Biotechnology, Generic health relevance, Animals, Endocytosis, Endosomes, Cell-Penetrating Peptides, Lysosomes, Hydrophobic and Hydrophilic Interactions, Chemical Sciences, General Chemistry

Abstract

Delivering cargo molecules across the plasma membrane is critical for biomedical research, and the need to develop molecularly well-defined tags that enable cargo transportation is ever-increasing. We report here a hydrophilic endocytosis-promoting peptide (EPP6) rich in hydroxyl groups with no positive charge. EPP6 can transport a wide array of small-molecule cargos into a diverse panel of animal cells. Mechanistic studies revealed that it entered the cells through a caveolin- and dynamin-dependent endocytosis pathway, mediated by the surface receptor fibrinogen C domain-containing protein 1. After endocytosis, EPP6 trafficked through early and late endosomes within 30 min. Over time, EPP6 partitioned among cytosol, lysosomes, and some long-lived compartments. It also demonstrated prominent transcytosis abilities in both in vitro and in vivo models. Our study proves that positive charge is not an indispensable feature for hydrophilic cell-penetrating peptides and provides a new category of molecularly well-defined delivery tags for biomedical applications.

Published

2022

2. Single-Cell Profiling of Fatty Acid Uptake Using Surface-Immobilized Dendrimers

Author

Guo, Zhili, Cheng, Hanjun, Li, Zhonghan, Shao, Shiqun, Sarkar, Priyanka, Wang, Siwen, Chaudhuri, Rohit, Perkins, Nicole G, Ji, Fei, Wei, Wei, and Xue, Min

Subjects

Cancer, Prevention, Biotechnology, Azides, Cell Proliferation, Cyclooctanes, Dendrimers, Fatty Acids, Fluorescence, Glioblastoma, Humans, Molecular Structure, Single-Cell Analysis, Surface Properties, Chemical Sciences, General Chemistry

Abstract

We present a chemical approach to profile fatty acid uptake in single cells. We use azide-modified analogues to probe the fatty acid influx and surface-immobilized dendrimers with dibenzocyclooctyne (DBCO) groups for detection. A competition between the fatty acid probes and BHQ2-azide quencher molecules generates fluorescence signals in a concentration-dependent manner. By integrating this method onto a microfluidics-based multiplex protein analysis platform, we resolved the relationships between fatty acid influx, oncogenic signaling activities, and cell proliferation in single glioblastoma cells. We found that p70S6K and 4EBP1 differentially correlated with fatty acid uptake. We validated that cotargeting p70S6K and fatty acid metabolism synergistically inhibited cell proliferation. Our work provided the first example of studying fatty acid metabolism in the context of protein signaling at single-cell resolution and generated new insights into cancer biology.

Published

2021

3. A Chemical Approach for Profiling Intracellular AKT Signaling Dynamics from Single Cells

Author

Shao, Shiqun, Li, Zhonghan, Cheng, Hanjun, Wang, Siwen, Perkins, Nicole G, Sarkar, Priyanka, Wei, Wei, and Xue, Min

Subjects

Brain Disorders, Biotechnology, Brain Cancer, Bioengineering, Rare Diseases, Cancer, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Cell Line, Tumor, Fluorescence Resonance Energy Transfer, Humans, Models, Molecular, Phosphorylation, Proto-Oncogene Proteins c-akt, Signal Transduction, Single-Cell Analysis, Chemical Sciences, General Chemistry

Abstract

We present here a novel chemical method to continuously analyze intracellular AKT signaling activities at single-cell resolution, without genetic manipulations. A pair of cyclic peptide-based fluorescent probes were developed to recognize the phosphorylated Ser474 site and a distal epitope on AKT. A Förster resonance energy transfer signal is generated upon concurrent binding of the two probes onto the same AKT protein, which is contingent upon the Ser474 phosphorylation. Intracellular delivery of the probes enabled dynamic measurements of the AKT signaling activities. We further implemented this detection strategy on a microwell single-cell platform, and interrogated the AKT signaling dynamics in a human glioblastoma cell line. We resolved unique features of the single-cell signaling dynamics following different perturbations. Our study provided the first example of monitoring the temporal evolution of cellular signaling heterogeneities and unveiled biological information that was inaccessible to other methods.

Published

2018

4. Single-Cell Profiling of Fatty Acid Uptake Using Surface-Immobilized Dendrimers.

Author

Zhili Guo, Hanjun Cheng, Zhonghan Li, Shiqun Shao, Sarkar, Priyanka, Siwen Wang, Chaudhuri, Rohit, Perkins, Nicole G., Fei Ji, Wei Wei, and Min Xue

Published

2021