Your search keyword '"Chupradit, Koollawat"' showing total 23 results

1. Engineered CD147-CAR macrophages for enhanced phagocytosis of cancers

Author

Chupradit, Koollawat, Muneekaew, Saitong, and Wattanapanitch, Methichit

Published

2024

2. Determination of a distinguished interferon gamma epitope recognized by monoclonal antibody relating to autoantibody associated immunodeficiency

Author

Yasamut, Umpa, Wisitponchai, Tanchanok, Lee, Vannajan Sanghiran, Yamabhai, Montarop, Rangnoi, Kuntalee, Thongkum, Weeraya, Chupradit, Koollawat, and Tayapiwatana, Chatchai

Published

2022

3. Immunoreactivity of humanized single-chain variable fragment against its functional epitope on domain 1 of CD147

Author

Intasai, Nutjeera, Rangnoi, Kuntalee, Yamabhai, Montarop, Pamonsupornwichit, Thanathat, Thongkum, Weeraya, Yasamut, Umpa, Chupradit, Koollawat, Takheaw, Nuchjira, Nimmanpipug, Piyarat, and Tayapiwatana, Chatchai

Published

2022

4. Longitudinal clonal tracking in humanized mice reveals sustained polyclonal repopulation of gene-modified human-HSPC despite vector integration bias

Author

Suryawanshi, Gajendra W., Arokium, Hubert, Kim, Sanggu, Khamaikawin, Wannisa, Lin, Samantha, Shimizu, Saki, Chupradit, Koollawat, Lee, YooJin, Xie, Yiming, Guan, Xin, Suryawanshi, Vasantika, Presson, Angela P., An, Dong-Sung, and Chen, Irvin S. Y.

Published

2021

5. A potential of propolis on major virulence factors of Cryptococcus neoformans

Author

Thammasit, Patcharin, Iadnut, Anupon, Mamoon, Ketsaya, Khacha-ananda, Supakit, Chupradit, Koollawat, Tayapiwatana, Chatchai, Kasinrerk, Watchara, Tragoolpua, Yingmanee, and Tragoolpua, Khajornsak

Published

2018

6. The Ca2+ sensor STIM1 regulates the type I interferon response by retaining the signaling adaptor STING at the endoplasmic reticulum

Author

Srikanth, Sonal, Woo, Jin Seok, Wu, Beibei, El-Sherbiny, Yasser M., Leung, Jennifer, Chupradit, Koollawat, Rice, Laura, Seo, Gil Ju, Calmettes, Guillaume, Ramakrishna, Chandran, Cantin, Edouard, An, Dong Sung, Sun, Ren, Wu, Ting-Ting, Jung, Jae U., Savic, Sinisa, and Gwack, Yousang

Published

2019

7. Validation of Promoters and Codon Optimization on CRISPR/Cas9-Engineered Jurkat Cells Stably Expressing αRep4E3 for Interfering with HIV-1 Replication.

Author

Chupradit, Koollawat, Sornsuwan, Kanokporn, Saiprayong, Kritayaporn, Wattanapanitch, Methichit, and Tayapiwatana, Chatchai

Subjects

*HIV, *SCAFFOLD proteins, *VIRAL genomes, *GENOME editing, *ADENO-associated virus, *CRISPRS

Abstract

Persistent and efficient therapeutic protein expression in the specific target cell is a significant concern in gene therapy. The controllable integration site, suitable promoter, and proper codon usage influence the effectiveness of the therapeutic outcome. Previously, we developed a non-immunoglobulin scaffold, alpha repeat protein (αRep4E3), as an HIV-1 RNA packaging interference system in SupT1 cells using the lentiviral gene transfer. Although the success of anti-HIV-1 activity was evidenced, the integration site is uncontrollable and may not be practical for clinical translation. In this study, we use the CRISPR/Cas9 gene editing technology to precisely knock-in αRep4E3 genes into the adeno-associated virus integration site 1 (AAVS1) safe harbor locus of the target cells. We compare the αRep4E3 expression under the regulation of three different promoters, including cytomegalovirus (CMV), human elongation factor-1 alpha (EF1α), and ubiquitin C (UbC) promoters with and without codon optimization in HEK293T cells. The results demonstrated that the EF1α promoter with codon-optimized αRep4E3mCherry showed higher protein expression than other promoters with non-optimized codons. We then performed a proof-of-concept study by knocking in the αRep4E3mCherry gene at the AAVS1 locus of the Jurkat cells. The results showed that the αRep4E3mCherry-expressing Jurkat cells exhibited anti-HIV-1 activities against HIV-1NL4-3 strain as evidenced by decreased capsid (p24) protein levels and viral genome copies as compared to the untransfected Jurkat control cells. Altogether, our study demonstrates that the αRep4E3 could interfere with the viral RNA packaging and suggests that the αRep4E3 scaffold protein could be a promising anti-viral molecule that offers a functional cure for people living with HIV-1. [ABSTRACT FROM AUTHOR]

Published

2022

8. A precise gene delivery approach for human induced pluripotent stem cells using Cas9 RNP complex and recombinant AAV6 donor vectors.

Author

Chupradit, Koollawat, Thongsin, Nontaphat, Tayapiwatana, Chatchai, and Wattanapanitch, Methichit

Subjects

*PLURIPOTENT stem cells, *INDUCED pluripotent stem cells, *GENETIC models, *STEM cell research, *REPORTER genes, *GENOME editing

Abstract

Genome editing in human induced pluripotent stem cells (hiPSCs) offers a potential tool for studying gene functions in disease models and correcting genetic mutations for cell-based therapy. Precise transgene insertion in hiPSCs represents a significant challenge. In the past decade, viral transduction has been widely used due to its high transduction efficiency; however, it can result in random transgene integration and variable transgene copy numbers. Non-viral-based strategies are generally safer but limited by their low transfection efficiency in hiPSCs. Recently, genome engineering using adeno-associated virus (AAV) vectors has emerged as a promising gene delivery approach due to AAVs' low immunogenicity, toxicity, and ability to infect a broad range of cells. The following protocol describes the workflow for genome editing in hiPSCs using the CRISPR/Cas9 ribonucleoprotein (RNP) complex combined with the recombinant AAV serotype 6 (AAV6) donor vectors to introduce a gene of interest (GOI) fused with mCherry fluorescent reporter gene into the AAVS1 safe harbor site. This approach leads to efficient transgene insertion and is applicable to precise genome editing of hiPSCs or other types of stem cells for research purposes. [ABSTRACT FROM AUTHOR]

Published

2022

9. Specific Interaction of DARPin with HIV-1 CA NTD Disturbs the Distribution of Gag, RNA Packaging, and Tetraspanin Remodelling in the Membrane.

Author

Moonmuang, Sutpirat, Maniratanachote, Rawiwan, Chetprayoon, Paninee, Sornsuwan, Kanokporn, Thongkum, Weeraya, Chupradit, Koollawat, and Tayapiwatana, Chatchai

Subjects

GLYCOSAMINOGLYCANS, TETRASPANIN, HIV, GAG proteins, PROTEIN precursors, SCAFFOLD proteins

Abstract

A designed repeat scaffold protein (AnkGAG1D4) recognizing the human immunodeficiency virus-1 (HIV-1) capsid (CA) was formerly established with antiviral assembly. Here, we investigated the molecular mechanism of AnkGAG1D4 function during the late stages of the HIV-1 replication cycle. By applying stimulated emission-depletion (STED) microscopy, Gag polymerisation was interrupted at the plasma membrane. Disturbance of Gag polymerisation triggered Gag accumulation inside producer cells and trapping of the CD81 tetraspanin on the plasma membrane. Moreover, reverse transcriptase-quantitative polymerase chain reaction (RT-qPCR) experiments were performed to validate the packaging efficiency of RNAs. Our results advocated that AnkGAG1D4 interfered with the Gag precursor protein from selecting HIV-1 and cellular RNAs for encapsidation into viral particles. These findings convey additional information on the antiviral activity of AnkGAG1D4 at late stages of the HIV-1 life cycle, which is potential for an alternative anti-HIV molecule. [ABSTRACT FROM AUTHOR]

Published

2022

10. Updating on Roles of HIV Intrinsic Factors: A Review of Their Antiviral Mechanisms and Emerging Functions.

Author

Hadpech, Sudarat, Moonmuang, Sutpirat, Chupradit, Koollawat, Yasamut, Umpa, and Tayapiwatana, Chatchai

Published

2022

11. Current Peptide and Protein Candidates Challenging HIV Therapy beyond the Vaccine Era.

Author

Chupradit, Koollawat, Moonmuang, Sutpirat, Nangola, Sawitree, Kitidee, Kuntida, Yasamut, Umpa, Mougel, Marylène, and Tayapiwatana, Chatchai

Subjects

*HIV infections, *THERAPEUTICS, *AIDS vaccines, *GENE therapy, *DRUG resistance, *IMMUNOTHERAPY

Abstract

Human immunodeficiency virus (HIV) is a causative agent of acquired immune deficiency syndrome (AIDS). Highly active antiretroviral therapy (HAART) can slow down the replication of HIV-1, leading to an improvement in the survival of HIV-1-infected patients. However, drug toxicities and poor drug administration has led to the emergence of a drug-resistant strain. HIV-1 immunotherapy has been continuously developed, but antibody therapy and HIV vaccines take time to improve its efficiency and have limitations. HIV-1-specific chimeric antigen receptor (CAR)-based immunotherapy founded on neutralizing antibodies is now being developed. In HIV-1 therapy, anti-HIV chimeric antigen receptors showed promising data in the suppression of HIV-1 replication; however, autologous transfusion is still a problem. This has led to the development of effective peptides and proteins for an alternative HIV-1 treatment. In this paper, we provide a comprehensive review of potent anti-HIV-1 peptides and proteins that reveal promising therapeutic activities. The inhibitory mechanisms of each therapeutic molecule in the different stages of the HIV-1 life cycle will be discussed herein. [ABSTRACT FROM AUTHOR]

Published

2017

12. Engineered Zinc Finger Protein Targeting 2LTR Inhibits HIV Integration in Hematopoietic Stem and Progenitor Cell-Derived Macrophages: In Vitro Study.

Author

Chupradit, Koollawat, Khamaikawin, Wannisa, Sakkhachornphop, Supachai, Puaninta, Chaniporn, Torbett, Bruce E., Borwornpinyo, Suparerk, Hongeng, Suradej, Wattanapanitch, Methichit, and Tayapiwatana, Chatchai

Subjects

*ZINC-finger proteins, *MACROPHAGES, *PROGENITOR cells, *GENE therapy, *HIV

Abstract

Human hematopoietic stem/progenitor cell (HSPC)-based gene therapy is a promising direction for curing HIV-1-infected individuals. The zinc finger protein (2LTRZFP) designed to target the 2-LTR-circle junction of HIV-1 cDNA was previously reported as an intracellular antiviral molecular scaffold that prevents HIV integration. Here, we elucidate the efficacy and safety of using 2LTRZFP in human CD34+ HSPCs. We transduced 2LTRZFP which has the mCherry tag (2LTRZFPmCherry) into human CD34+ HSPCs using a lentiviral vector. The 2LTRZFPmCherry-transduced HSPCs were subsequently differentiated into macrophages. The expression levels of pro-apoptotic proteins of the 2LTRZFPmCherry-transduced HSPCs showed no significant difference from those of the non-transduced control. Furthermore, the 2LTRZFPmCherry-transduced HSPCs were successfully differentiated into mature macrophages, which had normal phagocytic function. The cytokine secretion assay demonstrated that 2LTRZFPmCherry-transduced CD34+ derived macrophages promoted the polarization towards classically activated (M1) subtypes. More importantly, the 2LTRZFPmCherry transduced cells significantly exhibited resistance to HIV-1 integration in vitro. Our findings demonstrate that the 2LTRZFPmCherry-transduced macrophages were found to be functionally and phenotypically normal, with no adverse effects of the anti-HIV-1 scaffold. Our data suggest that the anti-HIV-1 integrase scaffold is a promising antiviral molecule that could be applied to human CD34+ HSPC-based gene therapy for AIDS patients. [ABSTRACT FROM AUTHOR]

Published

2022

13. Protein-Protein Interactions: Insight from Molecular Dynamics Simulations and Nanoparticle Tracking Analysis.

Author

Chong, Wei Lim, Chupradit, Koollawat, Chin, Sek Peng, Khoo, Mai Mai, Khor, Sook Mei, Tayapiwatana, Chatchai, Nimmanpipug, Piyarat, Thongkum, Weeraya, and Lee, Vannajan Sanghiran

Subjects

*PROTEIN-protein interactions, *MOLECULAR dynamics, *HIV, *HYDROGEN analysis, *BUFFER solutions, *HYDROGEN bonding

Abstract

Protein-protein interaction plays an essential role in almost all cellular processes and biological functions. Coupling molecular dynamics (MD) simulations and nanoparticle tracking analysis (NTA) assay offered a simple, rapid, and direct approach in monitoring the protein-protein binding process and predicting the binding affinity. Our case study of designed ankyrin repeats proteins (DARPins)—AnkGAG1D4 and the single point mutated AnkGAG1D4-Y56A for HIV-1 capsid protein (CA) were investigated. As reported, AnkGAG1D4 bound with CA for inhibitory activity; however, it lost its inhibitory strength when tyrosine at residue 56 AnkGAG1D4, the most key residue was replaced by alanine (AnkGAG1D4-Y56A). Through NTA, the binding of DARPins and CA was measured by monitoring the increment of the hydrodynamic radius of the AnkGAG1D4-gold conjugated nanoparticles (AnkGAG1D4-GNP) and AnkGAG1D4-Y56A-GNP upon interaction with CA in buffer solution. The size of the AnkGAG1D4-GNP increased when it interacted with CA but not AnkGAG1D4-Y56A-GNP. In addition, a much higher binding free energy (∆GB) of AnkGAG1D4-Y56A (−31 kcal/mol) obtained from MD further suggested affinity for CA completely reduced compared to AnkGAG1D4 (−60 kcal/mol). The possible mechanism of the protein-protein binding was explored in detail by decomposing the binding free energy for crucial residues identification and hydrogen bond analysis. [ABSTRACT FROM AUTHOR]

Published

2021

14. Latticed Gold Nanoparticle Conjugation via Monomeric Streptavidin in Lateral Flow Assay for Detection of Autoantibody to Interferon-Gamma.

Author

Thongkum, Weeraya, Yasamut, Umpa, Chupradit, Koollawat, Sakkhachornphop, Supachai, Wipasa, Jiraprapa, Sornsuwan, Kanokporn, Juntit, On-anong, Pornprasit, Rawiwan, Thongkamwitoon, Wanwisa, Chaichanan, Jirapan, Khaoplab, Jaruwan, Chanpradab, Chonnikarn, Kasinrerk, Watchara, and Tayapiwatana, Chatchai

Subjects

INTERFERON gamma, STREPTAVIDIN, COLLOIDAL gold, MYCOBACTERIAL diseases, SENSITIVITY & specificity (Statistics)

Abstract

Adult-onset immunodeficiency syndrome (AOID) patients with autoantibodies (autoAbs) against interferon-gamma (IFN-γ) generally suffer from recurrent and recalcitrant disseminated non-tuberculous mycobacterial diseases. Since the early stages of AOID do not present specific symptoms, diagnosis and treatment of the condition are not practical. A simplified diagnostic method for differentiating AOID from other immunodeficiencies, such as HIV infection, was created. Anti-IFN-γ is generally identified using enzyme-linked immunosorbent assay (ELISA), which involves an instrument and a cumbersome process. Recombinant IFN-γ indirectly conjugated to colloidal gold was used in the modified immunochromatographic (IC) strips. The biotinylated-IFN-γ was incorporated with colloidal-gold-labeled 6HIS-maltose binding protein-monomeric streptavidin (6HISMBP-mSA) and absorbed at the conjugate pad. The efficacy of the IC strip upon applying an anti-IFN-γ autoAb cut-off ELISA titer of 2500, the sensitivity and specificity were 84% and 90.24%, respectively. When a cut-off ELISA titer of 500 was applied, the sensitivity and specificity were 73.52% and 100%, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

15. 2LTRZFP Interacts Specifically to HIV-1 DNA without Off-Target Effects as Determined by Biolayer Interferometry.

Author

Chupradit, Koollawat, Thongkum, Weeraya, Juntit, On-anong, Sornsuwan, Kanokporn, and Tayapiwatana, Chatchai

Subjects

HIV, INTERFEROMETRY, ENZYME-linked immunosorbent assay, DNA, HUMAN genome, SINGLE-stranded DNA

Abstract

Protein and DNA interactions are crucial for many cellular processes. Biolayer Interferometry (BLI) is a label-free technology for determining kinetic biomolecular interactions with high accuracy results. In the present study, we determined the kinetic binding of a zinc finger scaffold, 2LTRZFP, which formerly constructed the interfering effect on HIV-1 integration process using BLI. The competitive Enzyme-linked immunosorbent assay (ELISA) was used to initially show the specific binding of 2LTRZFP. The percentages of inhibition were 62% and 22% in double-stranded 2LTR (ds2LTR) and irrelevant DNA (dsNeg), respectively. Consequently, the binding affinity of 2LTRZFP against ds2LTR target analyzed by BLI was 40 nM, which is stronger than the interaction of HIV-1 integrase (IN) enzyme to the 2LTR circle junction. Additionally, the 2LTRZFP did not interact with the genomic DNA extracted from SupT1 cell line. This result indicates that 2LTRZFP did not exhibit off-target effects against human genome. The knowledge obtained from this study supports the prospect of using 2LTRZFP in HIV-1 gene therapy. [ABSTRACT FROM AUTHOR]

Published

2021

16. Broad-Spectrum Antiviral Activity of an Ankyrin Repeat Protein on Viral Assembly against Chimeric NL4-3 Viruses Carrying Gag/PR Derived from Circulating Strains among Northern Thai Patients.

Author

Sakkhachornphop, Supachai, Hadpech, Sudarat, Wisitponchai, Tanchanok, Panto, Chansunee, Kantamala, Doungnapa, Utaipat, Utaiwan, Praparattanapan, Jutarat, Kotarathitithum, Wilai, Taejaroenkul, Sineenart, Yasamut, Umpa, Chupradit, Koollawat, Moonmuang, Sutpirat, Sanghiran Lee, Vannajan, Suparatpinyo, Khuanchai, and Tayapiwatana, Chatchai

Subjects

ANKYRINS, ADAPTOR proteins, HIV, T cells, LYMPHOCYTES

Abstract

Certain proteins have demonstrated proficient human immunodeficiency virus (HIV-1) life cycle disturbance. Recently, the ankyrin repeat protein targeting the HIV-1 capsid, AnkGAG1D4, showed a negative effect on the viral assembly of the HIV-1NL4-3 laboratory strain. To extend its potential for future clinical application, the activity of AnkGAG1D4 in the inhibition of other HIV-1 circulating strains was evaluated. Chimeric NL4-3 viruses carrying patient-derived Gag/PR-coding regions were generated from 131 antiretroviral drug-naïve HIV-1 infected individuals in northern Thailand during 2001–2012. SupT1, a stable T-cell line expressing AnkGAG1D4 and ankyrin non-binding control (AnkA32D3), were challenged with these chimeric viruses. The p24CA sequences were analysed and classified using the K-means clustering method. Among all the classes of virus classified using the p24CA sequences, SupT1/AnkGAG1D4 demonstrated significantly lower levels of p24CA than SupT1/AnkA32D3, which was found to correlate with the syncytia formation. This result suggests that AnkGAG1D4 can significantly interfere with the chimeric viruses derived from patients with different sequences of the p24CA domain. It supports the possibility of ankyrin-based therapy as a broad alternative therapeutic molecule for HIV-1 gene therapy in the future. [ABSTRACT FROM AUTHOR]

Published

2018

17. Impairment of a membrane-targeting protein translated from a downstream gene of a “self-cleaving” T2A peptide conjunction.

Author

Hadpech, Sudarat, Jinathep, Wannarat, Saoin, Somphot, Thongkum, Weeraya, Chupradit, Koollawat, Yasamut, Umpa, Moonmuang, Sutpirat, and Tayapiwatana, Chatchai

Subjects

*MEMBRANE proteins, *GENE delivery techniques, *PROTEIN expression, *GENETIC vectors, *NUCLEOTIDE sequence

Abstract

The requirement for reliable bicistronic or multicistronic vectors in gene delivery systems is at the forefront of bio/biomedical technology. A method that provides an efficient co-expression of multiple heterologous proteins would be valuable for many applications, especially in medical science for treating various types of disease. In this study, we designed and constructed a bicistronic expression vector using a self-cleaving 2A peptide derived from a virus of the insect Thosea asigna (T2A). This exhibited the most efficient cleavage of the 2A sequence. Two versions of the T2A-based vector were constructed by switching the DNA sequences encoding the proteins of interest, the N-myristoylated protein and the nuclear-homing protein, upstream and downstream of the 2A linker, respectively. Our results showed that similar levels of mRNA expression were found and 100% of cleavage efficiency of T2A was observed. Nevertheless, we also reported the cleared evidence that the N-myristoylated protein cannot be placed downstream of the 2A sequence. Since the protein product fails to translocate to the plasma membrane due to altered myristoylation process, the gene position of the T2A-based vector is meaningful for the subcellular localization of the N-myristoylated protein. Therefore, the observation was marked as a precaution for using the 2A peptide. To adopt the 2A peptide technology for generating the bicistronic or multicistronic expression, the vector design should be carefully considered for the transgene position, signal sequences, and post - translational modifications of each individual protein. [ABSTRACT FROM AUTHOR]

Published

2018

18. Biological properties of reverse ankyrin engineered for dimer construction to enhance HIV-1 capsid interaction.

Author

Juntit OA, Yasamut U, Sakkhachornphop S, Chupradit K, Thongkum W, Srisawat C, Chokepaichitkool T, Kongtawelert P, and Tayapiwatana C

Abstract

Background: Assembly and budding in the late-stage of human immunodeficiency virus type 1 (HIV-1) production rely on Gag protein polymerization at the inner leaflet of the plasma membrane. We previously generated a monomeric ankyrin repeat protein (Ank1D4) that specifically interacts with capsid protein (CAp24) of HIV-1, however this protein had modest binding affinity., Objective: This study aimed to improve the avidity of Ank1D4 by generating two Ank1D4 dimers: (Ank1D4NC-NC) and its inverted form (Ank1D4NC-CN), with each domain connected by a flexible (G4S)4 linker peptide., Methods: Binding properties of monomeric and dimeric Ank1D4 was performed by capture enzyme-linked immunosorbent assay (ELISA). Sandwich ELISA was used to examine bifunctional module of dimeric Ank1D4. Ank1D4NC-NC and Ank1D4NC-CN were evaluated using bio-layer interferometry (BLI), compared to monomeric Ank1D4., Results: Similar binding surfaces were observed in both dimers which was comparable with monomeric Ank1D4. The interaction of Ank1D4NC-CN with CAp24 was significantly greater than that of Ank1D4NC-NC and Ank1D4 by capture ELISA. Ank1D4NC-CN also exhibited bifunctionality using a sandwich ELISA. The KD of Ank1D4NC-CN, Ank1D4NC-NC and monomeric Ank1D4 was 3.5 nM, 53.7 nM, and 126.2 nM, respectively using bio-layer interferometry analysis., Conclusions: This study provides a strategy for increasing Ank1D4 avidity through the construction of novel inverted dimers with a flexible linker. Ank1D4NC-CN may provide an alternative treatment strategy for inhibiting HIV-1 replication.

Published

2022

19. Occupation of a thermoresistant-scaffold (αRep) at SP1-NC cleavage site disturbs the function of HIV-1 protease.

Author

Hadpech S, Peerakam N, Chupradit K, and Tayapiwatana C

Subjects

Binding Sites, Catalytic Domain, HIV Protease chemistry, HIV Protease Inhibitors chemistry, HIV-1 enzymology, Protein Binding, Protein Conformation, Protein Denaturation, Protein Stability, Recombinant Proteins chemistry, Recombinant Proteins pharmacology, Structure-Activity Relationship, Substrate Specificity, Temperature, HIV Protease metabolism, HIV Protease Inhibitors pharmacology, HIV-1 drug effects

Abstract

HIV-1 nucleocapsid (NC) becomes an attractive target for the development of novel anti-HIV-1 agents. Discovering of non-antibody scaffolds that disrupt the function of NC will be a potential aspect for disturbing viral maturation process. Correspondingly, we explored the specific binding site of the thermoresistant-scaffold protein, αRep9A8 which formerly demonstrated the inhibitory effect on HIV-1 replication. The portion of Gag, CA21-SP1-NC has been used as a template for designing nine overlapping peptides (P4-P12). The P9 peptide showed the strongest binding activity followed by P8 and P12 respectively. The amino acid sequences on those peptides resemble the N-terminal domain of the NC proximity to the SP1-NC initial cleavage site and across the conserved CCHC zinc finger 1 (ZF1) of NC. The interaction KD between αRep9A8 with its target was 224.9 ± 57.4 nM. Consequently, αRep9A8 demonstrated the interference of the HIV-1 protease function by hindering a protease cleavage site. The released NC product from CA21-SP1-NC was diminished. The present study provided an additional information of αRep9A8 function in interfering of viral maturation processes resulting in the decremental efficiency of viral infectivity., (© 2020 The Author(s).)

Published

2020

20. Modulated expression of the HIV-1 2LTR zinc finger efficiently interferes with the HIV integration process.

Author

Moonmuang S, Saoin S, Chupradit K, Sakkhachornphop S, Israsena N, Rungsiwiwut R, and Tayapiwatana C

Subjects

Dose-Response Relationship, Drug, Doxycycline administration & dosage, Doxycycline pharmacology, Gene Expression Regulation drug effects, HEK293 Cells, HIV Infections genetics, HIV Long Terminal Repeat drug effects, HIV-1 pathogenicity, Humans, Lentivirus genetics, Pluripotent Stem Cells virology, Tetracycline pharmacology, Transgenes, Virus Integration drug effects, Virus Integration genetics, Zinc Fingers, Genetic Therapy methods, Genetic Vectors, HIV Long Terminal Repeat genetics, HIV-1 genetics, Virus Integration physiology

Abstract

Lentiviral vectors have emerged as the most efficient system to stably transfer and insert genes into cells. By adding a tetracycline (Tet)-inducible promoter, transgene expression delivered by a lentiviral vector can be expressed whenever needed and halted when necessary. Here we have constructed a doxycycline (Dox)-inducible lentiviral vector which efficiently introduces a designed zinc finger protein, 2-long terminal repeat zinc-finger protein (2LTRZFP), into hematopoietic cell lines and evaluated its expression in pluripotent stem cells. As a result this lentiviral inducible system can regulate 2LTRZFP expression in the SupT1 T-cell line and in pluripotent stem cells. Using this vector, no basal expression was detected in the T-cell line and its induction was achieved with low Dox concentrations. Remarkably, the intracellular regulatory expression of 2LTRZFP significantly inhibited HIV-1 integration and replication in HIV-inoculated SupT1 cells. This approach could provide a potential tool for gene therapy applications, which efficiently control and reduce the side effect of therapeutic genes expression., (© 2018 The Author(s).)

Published

2018

21. Deciphering critical amino acid residues to modify and enhance the binding affinity of ankyrin scaffold specific to capsid protein of human immunodeficiency virus type 1.

Author

Saoin S, Wisitponchai T, Intachai K, Chupradit K, Moonmuang S, Nangola S, Kitidee K, Fanhchaksai K, Lee VS, Hong SS, Boulanger P, Chuankhayan P, Chen CJ, and Tayapiwatana C

Subjects

Amino Acid Sequence, Amino Acids, Ankyrins chemistry, Ankyrins metabolism, Ankyrins pharmacology, Antiviral Agents metabolism, Capsid Proteins metabolism, Humans, Protein Binding, Recombinant Fusion Proteins metabolism, Structure-Activity Relationship, Antiviral Agents chemistry, Antiviral Agents pharmacology, HIV-1 drug effects, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins pharmacology

Abstract

Background: AnkGAG1D4 is an artificial ankyrin repeat protein which recognizes the capsid protein (CA) of the human immunodeficiency virus type 1 (HIV-1) and exhibits the intracellular antiviral activity on the viral assembly process. Improving the binding affinity of AnkGAG1D4 would potentially enhance the AnkGAG1D4-mediated antiviral activity., Objective: To augment the affinity of AnkGAG1D4 scaffold towards its CA target, through computational predictions and experimental designs., Method: Three dimensional structure of the binary complex formed by AnkGAG1D4 docked to the CA was used as a model for van der Waals (vdW) binding energy calculation. The results generated a simple guideline to select the amino acids for modifications. Following the predictions, modified AnkGAG1D4 proteins were produced and further evaluated for their CA-binding activity, using ELISA-modified method and bio-layer interferometry (BLI)., Results: Tyrosine at position 56 (Y56) in AnkGAG1D4 was experimentally identified as the most critical residue for CA binding. Rational substitutions of this residue diminished the binding affinity. However, vdW calculation preconized to substitute serine for tyrosine at position 45. Remarkably, the affinity for the viral CA was significantly enhanced in AnkGAG1D4-S45Y mutant, with no alteration of the target specificity., Conclusions: The S-to-Y mutation at position 45, based on the prediction of interacting amino acids and on vdW binding energy calculation, resulted in a significant enhancement of the affinity of AnkGAG1D4 ankyrin for its CA target. AnkGAG1D4-S45Y mutant represented the starting point for further construction of variants with even higher affinity towards the viral CA, and higher therapeutic potential in the future.

Published

2018

22. Alpha-helicoidal HEAT-like Repeat Proteins (αRep) Selected as Interactors of HIV-1 Nucleocapsid Negatively Interfere with Viral Genome Packaging and Virus Maturation.

Author

Hadpech S, Nangola S, Chupradit K, Fanhchaksai K, Furnon W, Urvoas A, Valerio-Lepiniec M, Minard P, Boulanger P, Hong SS, and Tayapiwatana C

Subjects

Animals, Capsid Proteins metabolism, Carrier Proteins chemistry, Cell Line, Humans, Models, Biological, Protein Conformation, alpha-Helical, T-Lymphocytes metabolism, T-Lymphocytes virology, Virus Replication, Carrier Proteins metabolism, Gene Products, gag metabolism, Genome, Viral, HIV Infections metabolism, HIV Infections virology, HIV-1 physiology, Nucleocapsid metabolism, Virus Assembly

Abstract

A new generation of artificial proteins, derived from alpha-helicoidal HEAT-like repeat protein scaffolds (αRep), was previously characterized as an effective source of intracellular interfering proteins. In this work, a phage-displayed library of αRep was screened on a region of HIV-1 Gag polyprotein encompassing the C-terminal domain of the capsid, the SP1 linker and the nucleocapsid. This region is known to be essential for the late steps of HIV-1 life cycle, Gag oligomerization, viral genome packaging and the last cleavage step of Gag, leading to mature, infectious virions. Two strong αRep binders were isolated from the screen, αRep4E3 (32 kDa; 7 internal repeats) and αRep9A8 (28 kDa; 6 internal repeats). Their antiviral activity against HIV-1 was evaluated in VLP-producer cells and in human SupT1 cells challenged with HIV-1. Both αRep4E3 and αRep9A8 showed a modest but significant antiviral effects in all bioassays and cell systems tested. They did not prevent the proviral integration reaction, but negatively interfered with late steps of the HIV-1 life cycle: αRep4E3 blocked the viral genome packaging, whereas αRep9A8 altered both virus maturation and genome packaging. Interestingly, SupT1 cells stably expressing αRep9A8 acquired long-term resistance to HIV-1, implying that αRep proteins can act as antiviral restriction-like factors.

Published

2017

23. Combined Antiviral Therapy Using Designed Molecular Scaffolds Targeting Two Distinct Viral Functions, HIV-1 Genome Integration and Capsid Assembly.

Author

Khamaikawin W, Saoin S, Nangola S, Chupradit K, Sakkhachornphop S, Hadpech S, Onlamoon N, Ansari AA, Byrareddy SN, Boulanger P, Hong SS, Torbett BE, and Tayapiwatana C

Abstract

Designed molecular scaffolds have been proposed as alternative therapeutic agents against HIV-1. The ankyrin repeat protein (Ank(GAG)1D4) and the zinc finger protein (2LTRZFP) have recently been characterized as intracellular antivirals, but these molecules, used individually, do not completely block HIV-1 replication and propagation. The capsid-binder Ank(GAG)1D4, which inhibits HIV-1 assembly, does not prevent the genome integration of newly incoming viruses. 2LTRZFP, designed to target the 2-LTR-circle junction of HIV-1 cDNA and block HIV-1 integration, would have no antiviral effect on HIV-1-infected cells. However, simultaneous expression of these two molecules should combine the advantage of preventive and curative treatments. To test this hypothesis, the genes encoding the N-myristoylated Myr(+)Ank(GAG)1D4 protein and the 2LTRZFP were introduced into human T-cells, using a third-generation lentiviral vector. SupT1 cells stably expressing 2LTRZFP alone or with Myr(+)Ank(GAG)1D4 showed a complete resistance to HIV-1 in viral challenge. Administration of the Myr(+)Ank(GAG)1D4 vector to HIV-1-preinfected SupT1 cells resulted in a significant antiviral effect. Resistance to viral infection was also observed in primary human CD4+ T-cells stably expressing Myr(+)Ank(GAG)1D4, and challenged with HIV-1, SIVmac, or SHIV. Our data suggest that our two anti-HIV-1 molecular scaffold prototypes are promising antiviral agents for anti-HIV-1 gene therapy.

Published

2015