6e2z Citations

Porcine Circovirus 2 Uses a Multitude of Weak Binding Sites To Interact with Heparan Sulfate, and the Interactions Do Not Follow the Symmetry of the Capsid.

Dhindwal S, Avila B, Feng S, Khayat R
J Virol 93 (2019)
Related entries: 6e2r, 6e2x, 6e30, 6e32, 6e34, 6e39

Cited: 18 times
EuropePMC logo PMID: 30602608

Abstract

Porcine circovirus 2 (PCV2) is the smallest pathogenic virus capable of autonomous replication within its host. Infections result in immunosuppression and subsequent death of the host and are initiated via the attachment of the PCV2 icosahedral capsid to heparan sulfate (HS) and chondroitin sulfate B (CSB) glycosaminoglycans on the cell surface. However, the underlying mechanism of structural recognition remains to be explored. Using heparin, a routinely used analog of heparan sulfate, we demonstrate that increasing lengths of heparin exhibit a greater affinity toward PCV2. Our competition assays indicate that dextran sulfate (8 kDa) has a higher affinity for PCV2 than heparin (12 kDa), chondroitin sulfate B (41 kDa), hyaluronic acid (1.6 MDa), and dextran (6 kDa). This suggests that polymers high in sulfate content are capable of competing with the PCV2-heparan sulfate interaction and, thus, have the potential to inhibit PCV2 infection. Finally, we visualized the interaction between heparin and the PCV2 capsid using cryo-electron microscopy single-particle analysis, symmetry expansion, and focused classification. The image reconstructions provide the first example of an asymmetric distribution of heparin on the surface of an icosahedral virus capsid. We demonstrate that each of the 60 capsid subunits that generate the T=1 capsid can bind heparin via one of five binding sites. However, not all of the binding sites were occupied by heparin, and only one-third to two-thirds of the binding sites were occupied. The binding sites are defined by arginine, lysine, and polar amino acids. Mutating the arginine, lysine, and polar amino acids to alanine diminished the binding capacity of PCV2 to heparin.

Articles - 6e2z mentioned but not cited (1)

  1. Porcine Circovirus 2 Uses a Multitude of Weak Binding Sites To Interact with Heparan Sulfate, and the Interactions Do Not Follow the Symmetry of the Capsid. Dhindwal S, Avila B, Feng S, Khayat R. J Virol 93 e02222-18 (2019)


Reviews citing this publication (3)

  1. Current knowledge on epidemiology and evolution of novel porcine circovirus 4. Wang D, Mai J, Yang Y, Xiao CT, Wang N. Vet Res 53 38 (2022)
  2. Advances in Crosstalk between Porcine Circoviruses and Host. Niu G, Chen S, Li X, Zhang L, Ren L. Viruses 14 1419 (2022)
  3. Targeting heparan sulfate-protein interactions with oligosaccharides and monoclonal antibodies. Li M, Pedersen LC, Xu D. Front Mol Biosci 10 1194293 (2023)

Articles citing this publication (14)

  1. Bypassing pan-enterovirus host factor PLA2G16. Baggen J, Liu Y, Lyoo H, van Vliet ALW, Wahedi M, de Bruin JW, Roberts RW, Overduin P, Meijer A, Rossmann MG, Thibaut HJ, van Kuppeveld FJM. Nat Commun 10 3171 (2019)
  2. Cryo-EM structure of eastern equine encephalitis virus in complex with heparan sulfate analogues. Chen CL, Hasan SS, Klose T, Sun Y, Buda G, Sun C, Klimstra WB, Rossmann MG. Proc Natl Acad Sci U S A 117 8890-8899 (2020)
  3. Structural and Proteomic Characterization of the Initiation of Giant Virus Infection. Schrad JR, Abrahão JS, Cortines JR, Parent KN. Cell 181 1046-1061.e6 (2020)
  4. Antiviral Effect of Epigallocatechin Gallate via Impairing Porcine Circovirus Type 2 Attachment to Host Cell Receptor. Li J, Song D, Wang S, Dai Y, Zhou J, Gu J. Viruses 12 E176 (2020)
  5. The Carboxyl Terminus of the Porcine Circovirus Type 2 Capsid Protein Is Critical to Virus-Like Particle Assembly, Cell Entry, and Propagation. Zhan Y, Yu W, Cai X, Lei X, Lei H, Wang A, Sun Y, Wang N, Deng Z, Yang Y. J Virol 94 e00042-20 (2020)
  6. Structural characterization of the PCV2d virus-like particle at 3.3 Å resolution reveals differences to PCV2a and PCV2b capsids, a tetranucleotide, and an N-terminus near the icosahedral 3-fold axes. Khayat R, Wen K, Alimova A, Gavrilov B, Katz A, Galarza JM, Gottlieb P. Virology 537 186-197 (2019)
  7. Structural insight into the type-specific epitope of porcine circovirus type 3. Bi M, Li X, Zhai W, Yin B, Tian K, Mo X. Biosci Rep 40 BSR20201109 (2020)
  8. Conformational Changes and Nuclear Entry of Porcine Circovirus without Disassembly. Wang H, Zhang K, Lin C, Zhou J, Jin Y, Dong W, Gu J, Zhou J. J Virol 93 e00824-19 (2019)
  9. The Oryx Antelope (Oryx gazella): An Unexpected Host for Porcine Circovirus-2 (PCV-2). Molini U, Coetzee LM, Hemberger MY, Khaiseb S, Cattoli G, Dundon WG, Franzo G. Pathogens 10 1402 (2021)
  10. Porcine DNAJB6 promotes PCV2 replication via enhancing the formation of autophagy in host cells. Han C, Du Q, Zhu L, Chen N, Luo L, Chen Q, Yin J, Wu X, Tong D, Huang Y. Vet Res 51 61 (2020)
  11. The Arginines in the N-Terminus of the Porcine Circovirus 2 Virus-like Particles Are Responsible for Disrupting the Membranes at Neutral and Acidic pH. Dhindwal S, Feng S, Khayat R. J Mol Biol 431 3261-3274 (2019)
  12. Molecular Detection and Genetic Characterization of Porcine Circovirus 2 (PCV-2) in Black-Backed Jackal (Lupulella mesomelas) in Namibia. Molini U, Coetzee LM, Van Zyl L, Khaiseb S, Cattoli G, Dundon WG, Franzo G. Animals (Basel) 12 620 (2022)
  13. Constant pH molecular dynamics of porcine circovirus 2 capsid protein reveals a mechanism for capsid assembly. Tarasova E, Okimoto N, Feng S, Nerukh D, Khayat R, Taiji M. Phys Chem Chem Phys 23 24617-24626 (2021)
  14. Selection and Evaluation of Porcine circovirus (PCV) 2d Vaccine Strains to Protect against Currently Prevalent PCV2. Ju L, You SH, Lee MA, Jayaramaiah U, Jeong YJ, Lee HS, Hyun BH, Lee N, Kang SJ. Vaccines (Basel) 11 1447 (2023)


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