Zihui Fang scite author profile

Zihui Fang

5Publications

57Citation Statements Received

188Citation Statements Given

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Mirna Therapeutics (United States), South China Agricultural University

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Amino Acid Residues in the Putative Transmembrane Domain 11 of Human Organic Anion Transporting Polypeptide 1B1 Dictate Transporter Substrate Binding, Stability, and Trafficking

Hong

Fang

et al. 2015

Mol. Pharmaceutics

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Organic anion transporting polypeptides (OATPs, gene symbol SLCO) are membrane proteins that mediate the sodium-independent transport of a wide range of endogenous and exogenous compounds. Due to their broad substrate specificity, wide tissue distribution, and involvement in drug-drug interactions, OATPs have been considered as key players in drug absorption, distribution, and excretion. Transmembrane domains (TMs) are crucial structural features involved in proper functions of many transporters. According to computer-based modeling and previous studies of our laboratory and others, TM11 of OATP1B1 may face the substrate interaction pocket and thus play an important role in the transport function of the protein. Alanine-scanning of the transmembrane domain identified seven critical amino acid residues within the region. Further analysis revealed that alanine substitution of these residues resulted in reduced protein stability, which led to significantly decreased protein expression on the plasma membrane. In addition, all mutants exhibited an altered Km for ES uptake (either high affinity or low affinity component, or both), though Km for taurocholate transport only changed in R580A, G584A, and F591A. These results suggested that critical residues in TM11 not only affect protein stability of the transporter, but its interaction with substrates as well. The identification of seven essential residues out of 21 TM amino acids highlighted the importance of this transmembrane domain in the proper function of OATP1B1.

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Transmembrane Domain 1 of Human Organic Anion Transporting Polypeptide 2B1 Is Essential for Transporter Function and Stability

Fang¹,

Huang²,

Chen³

et al. 2018

Mol Pharmacol

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Organic anion transporting polypeptides (OATPs, gene symbol ) are important membrane transporter proteins that mediate the uptake of wide ranges of endogenous and exogenous compounds. OATP2B1 has been found in multiple organs and tissues, including the liver, small intestine, kidney, brain, placenta, heart, skin, as well as skeletal muscle, and is proposed to be involved in the uptake of orally administered drugs. Quite a few reports have demonstrated that transmembrane domains (TMs) are crucial for proper functions of OATP family members. Comparative modeling proposed that TM1, along with TM2, 4, and 5 of the N-terminal half of OATP2B1, may be localized within the substrate interaction pocket and are important for uptake function of the transporter. Alanine scanning of the putative transmembrane domain 1 of OATP2B1 revealed that substitution of L58 with alanine dramatically altered the K value, and mutation of V52, H55, Q59, and L69 resulted in significantly reduced substrate turnover number, whereas A61V, Q62A, and S66A exhibited significant change in both K and V values. In addition, phenylalanine at position 51 seems to play an important role in maintaining proper folding of OATP2B1 because alanine replacement of F51 caused accelerated degradation of the transporter protein. Although proteasome and lysosome inhibitors could partially recover protein level, the mutant transporter remained nonfunctional. Taken together, the identification of nine essential amino acid residues within TM1 of OATP2B1 suggested that the transmembrane domain is important for maintaining proper function of the transporter.

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Development of Bivalent mRNA Vaccines against SARS-CoV-2 Variants

Liu

et al. 2022

Vaccines

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The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has infected billions of individuals and is the cause of the current global coronavirus disease 2019 (COVID-19) pandemic. We previously developed an mRNA vaccine (LVRNA009) based on the S protein of the Wuhan-Hu-1 strain; the phases I and II clinical trials showed that LVRNA009 has a promising safety and immunogenicity profile. In order to counteract the immune escape by SARS-CoV-2 variants of concern, a panel of mRNA vaccines was developed based on the S proteins of the Wuhan-Hu-1, Delta, Omicron BA.1, BA.2, and BA.5 strains, and each vaccine’s protective potency against the virus variants was evaluated. Furthermore, to achieve excellent neutralization against SARS-CoV-2 variants, bivalent vaccines were developed and tested against the variants. We found that the monovalent Wuhan-Hu-1 or the Delta vaccines could induce high level of neutralization antibody and protect animals from the infection of the SARS-CoV-2 Wuhan-Hu-1 or Delta strains, respectively. However, serum samples from mice immunized with monovalent Delta vaccine showed relatively low virus neutralization titers (VNTs) against the pseudotyped virus of the Omicron strains. Serum samples from mice immunized with bivalent Delta/BA.1 vaccine had high VNTs against the pseudotyped Wuhan-Hu-1, Delta, and BA.1 strains but low VNTs against BA.2 and BA.5 (p < 0.05). Serum samples from mice immunized with Delta/BA.2 vaccine had high VNTs against the pseudotyped Wuhan-Hu-1, Delta, BA.1 and BA.2 strains but low VNTs against BA.5. Finally, serum samples from mice immunized with Delta/BA.5 vaccine had high VNTs against all the tested pseudotyped SARS-CoV-2 strains including the Wuhan-Hu-1, Delta, and Omicron variants (p > 0.05). Therefore, a bivalent mRNA vaccine with Delta/BA.5 combination is promising to provide broad spectrum immunity against all VOCs.

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Amino-terminal region of human organic anion transporting polypeptide 1B1 dictates transporter stability and substrate interaction

Wang

Chen

et al. 2019

Toxicology and Applied Pharmacology

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Oligomerization Study of Human Organic Anion Transporting Polypeptide 1B1

Fang

et al. 2017

Mol. Pharmaceutics

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Organic anion-transporting polypeptides play important roles in the uptake of various endogenous and exogenous compounds. It has been proposed that OATP family members, as membrane proteins, may form oligomers. However, oligomerization status of OATPs is still largely unclear. In the present study, HEK293 cells stably expressing OATP1B1 were generated to investigate the oligomerization status of the transporter. Chemical cross-linking and coimmunoprecipitation experiments revealed that OATP1B1 may form homo-oligomers, possibly through disulfide bonds. When wild-type OATP1B1 was coexpressed with a loss-of-function mutant W258A, cells showed reduced uptake of prototypic substrate estrone-3-sulfate (ES). Interestingly, such a coexpression did not affect OATP1B1 transport activity of high concentrations ES, implicating that oligomerization status may affect only the high affinity component of ES. OATP1B1 possesses three GXXXG motifs that have been associated with protein dimerization in other membrane proteins. When glycine residues were replaced with alanine, G219A and G393A showed drastically reduced uptake function. Further studies revealed that G219A has a similar association capability to that of the wild-type, while mutation at Gly393 may affect oligomerization status of the transporter. Kinetic analysis showed that both G219A and G393A have a dramatically reduced V for ES uptake. K of G219A was increased while that of G393A exhibited a decreased value for high affinity component of ES binding. Our studies demonstrated that OATP1B1 may function as oligomers in the high affinity site of ES while acting as monomers for the low affinity binding component of the substrate.

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Zihui Fang

Amino Acid Residues in the Putative Transmembrane Domain 11 of Human Organic Anion Transporting Polypeptide 1B1 Dictate Transporter Substrate Binding, Stability, and Trafficking

Transmembrane Domain 1 of Human Organic Anion Transporting Polypeptide 2B1 Is Essential for Transporter Function and Stability

Development of Bivalent mRNA Vaccines against SARS-CoV-2 Variants

Amino-terminal region of human organic anion transporting polypeptide 1B1 dictates transporter stability and substrate interaction

Oligomerization Study of Human Organic Anion Transporting Polypeptide 1B1

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