TIM-1 acts a dual-attachment receptor for Ebolavirus by interacting directly with viral GP and the PS on the viral envelope
Received date: 10 Sep 2015
Accepted date: 30 Sep 2015
Published date: 04 Nov 2015
Copyright
Ebolavirus can cause hemorrhagic fever in humans with a mortality rate of 50%−90%. Currently, no approved vaccines and antiviral therapies are available. Human TIM1 is considered as an attachment factor for EBOV, enhancing viral infection through interaction with PS located on the viral envelope. However, reasons underlying the preferable usage of hTIM-1, but not other PS binding receptors by filovirus, remain unknown. We firstly demonstrated a direct interaction between hTIM-1 and EBOV GP in vitro and determined the crystal structures of the Ig V domains of hTIM-1 and hTIM-4. The binding region in hTIM-1 to EBOV GP was mapped by chimeras and mutation assays, which were designed based on structural analysis. Pseudovirion infection assays performed using hTIM-1 and its homologs as well as point mutants verified the location of the GP binding site and the importance of EBOV GP-hTIM-1 interaction in EBOV cellular entry.
Key words: Ebolavirus; viral entry; glycoprotein; receptor; interaction
Shuai Yuan , Lei Cao , Hui Ling , Minghao Dang , Yao Sun , Xuyuan Zhang , Yutao Chen , Liguo Zhang , Dan Su , Xiangxi Wang , Zihe Rao . TIM-1 acts a dual-attachment receptor for Ebolavirus by interacting directly with viral GP and the PS on the viral envelope[J]. Protein & Cell, 2015 , 6(11) : 814 -824 . DOI: 10.1007/s13238-015-0220-y
1 |
Adams PD
|
2 |
Angata T, Varki A (2002) Chemical diversity in the sialic acids and related α-keto acids: an evolutionary perspective. Chem Rev 102(2): 439−470
|
3 |
Brindley MA
|
4 |
Cao E
|
5 |
Côté M
|
6 |
DeLano WL (2002) The PyMOL molecular graphics system
|
7 |
Dolnik O, Kolesnikova L, Becker S (2008) Filoviruses: interactions with the host cell. Cell Mol Life Sci 65(5): 756−776
|
8 |
Emsley P, Cowtan K (2004) Coot: model-building tools for molecular graphics. Acta Crystallogr Sect D 60(12): 2126−2132
|
9 |
Feigelstock D, Thompson P, Mattoo P, Zhang Y, Kaplan GG (1998) The human homolog of HAVcr-1 codes for a hepatitis A virus cellular receptor. J Virol 72(8): 6621−6628
|
10 |
Freeman GJ, Casasnovas JM, Umetsu DT, DeKruyff RH (2010) TIM genes: a family of cell surface phosphatidylserine receptors that regulate innate and adaptive immunity. Immunol Rev 235(1): 172−189
|
11 |
Huang Y-H
|
12 |
Hunt CL, Lennemann NJ, Maury W (2012) Filovirus entry: a novelty in the viral fusion world. Viruses 4(2): 258−275
|
13 |
Jemielity S
|
14 |
Kelm S, Schauer R (1997) Sialic acids in molecular and cellular interactions. Int Rev Cytol 175: 137−240
|
15 |
Kondratowicz AS
|
16 |
Kuchroo VK, Umetsu DT, DeKruyff RH, Freeman GJ (2003) The TIM gene family: emerging roles in immunity and disease. Nat Rev Immunol 3(6): 454−462
|
17 |
Kuhn JH
|
18 |
Kuroda M, Fujikura D, Nanbo A, Marz A, Noyori O, Kajihara M, Maruyama J, Yoshida R, Feldmann H, Takada A (2015) The interaction between TIM-1 and NPC1 is important for the cellular entry of Ebola virus. J Virol 89: 6481
|
19 |
Larkin M
|
20 |
Lee JE
|
21 |
Li M
|
22 |
Matthews BW (1968) Solvent content of protein crystals. J Molbiol 33(2): 491−497
|
23 |
May A, Robinson R, Vinson M, Crocker P, Jones E (1998) Crystal structure of the N-terminal domain of sialoadhesin in complex with 3′ sialyllactose at 1.85 Å resolution. Mol Cell 1(5): 719−728
|
24 |
McCoy AJ
|
25 |
Meertens L
|
26 |
Mercer J, Helenius A (2008) Vaccinia virus uses macropinocytosis and apoptotic mimicry to enter host cells. Science 320(5875): 531−535
|
27 |
Moller-Tank S, Kondratowicz AS, Davey RA, Rennert PD, Maury W (2013) Role of the phosphatidylserine receptor TIM-1 in enveloped-virus entry. J Virol 87(15): 8327−8341
|
28 |
Otwinowski Z, Minor W (1997) Processing of X-ray diffraction data. Methods Enzymol 276: 307−326
|
29 |
Powlesland AS
|
30 |
Rennert PD (2011) Novel roles for TIM-1 in immunity and infection. Immunol Lett 141(1): 28−35
|
31 |
Santiago C
|
32 |
Santiago C
|
33 |
Schauer R, Kamerling JP (1995) Chemistry, biochemistry and biology of sialic acids. New Compr Biochem 29: 243−402
|
34 |
Silberstein E
|
35 |
Soares MM, King SW, Thorpe PE (2008) Targeting inside-out phosphatidylserine as a therapeutic strategy for viral diseases. Nat Med 14(12): 1357−1362
|
36 |
Takada A
|
37 |
Wang X
|
38 |
Wool-Lewis RJ, Bates P (1998) Characterization of Ebola virus entry by using pseudotyped viruses: identification of receptor-deficient cell lines. J Virol 72(4): 3155−3160
|
39 |
Zaccai NR
|
40 |
Zhang W
|
41 |
Zhang Y
|
/
〈 | 〉 |