Chenmeizi Liang scite author profile

Chenmeizi Liang

3Publications

29Citation Statements Received

79Citation Statements Given

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105

Affiliations

East China Normal University, Texas A&M Health Science Center, Texas A&M University

Publications

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Development and Characterization of MDR1 (Mdr1a/b) CRISPR/Cas9 Knockout Rat Model

Liang

Zhao

et al. 2018

Drug Metab Dispos

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Clustered regularly interspaced short palindromic repeats (CRISPR)/ CRISPR-associated protein-9 nuclease (Cas9) technology is widely used as a tool for gene editing in rat genome site-specific engineering. Multidrug resistance 1 [MDR1 (also known as P-glycoprotein)] is a key efflux transporter that plays an important role not only in the transport of endogenous and exogenous substances, but also in tumor MDR. In this report, a novel MDR1 (Mdr1a/b) doubleknockout (KO) rat model was generated by the CRISPR/Cas9 system without any off-target effect detected. Western blot results showed that MDR1 was completely absent in the liver, small intestine, brain, and kidney of KO rats. Further pharmacokinetic studies of digoxin, a typical substrate of MDR1, confirmed the deficiency of MDR1 in vivo. To determine the possible compensatory mechanism of Mdr1a/b (2/2) rats, the mRNA levels of the CYP3A subfamily and transporter-related genes were compared in the brain, liver, kidney, and small intestine of KO and wild-type rats. In general, a new Mdr1a/b (2/2) rat model has been successfully generated and characterized. This rat model is a useful tool for studying the function of MDR1 in drug absorption, tumor MDR, and drug target validation.

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A novel biosensor based on intestinal 3D organoids for detecting the function of BCRP

et al. 2017

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Breast cancer resistance protein (BCRP), a key drug efflux transporter, significantly affects the therapeutic efficacy of many drugs. Thus, screening specific BCRP inhibitors and distinguishing between substrates and non-substrates of BCRP are valuable in drug discovery and development. This study presents a novel BCRP biosensor based on intestinal 3D organoids for rapid and sensitive detection of BCRP function. First, the crypts were isolated from mouse small intestine, and cultured in advanced DMEM/F12 medium to develop intestinal 3D organoids. Second, immunohistochemical studies demonstrated that BCRP protein in the organoids presented a similar expression and physiologic position to the small intestinal epithelium. Finally, the cultured organoids were treated in BCRP fluorogenic probe substrate Hoechst 33342 with or without BCRP inhibitor Ko143 and YHO-13177. The fluorescence intensity of Hoechst 33342 released from inner of the organoids was detected by microplate reader and the concentrations were calculated. Ko143 and YHO-13177 significantly inhibited the BCRP-mediated Hoechst 33342 transport in the 3D organoids. Consequently, a rapid and efficient biosensor has been successfully established to study BCRP, especially screening BCRP inhibitors in a high-throughput way.

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Characterization of in vitro Mrp2 transporter model based on intestinal organoids

Zhang

Liang

et al. 2019

Regulatory Toxicology and Pharmacology

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Chenmeizi Liang

Development and Characterization of MDR1 (Mdr1a/b) CRISPR/Cas9 Knockout Rat Model

A novel biosensor based on intestinal 3D organoids for detecting the function of BCRP

Characterization of in vitro Mrp2 transporter model based on intestinal organoids

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