TY - JOUR
T1 - APOBEC3F properties and hypermutation preferences indicate activity against HIV-1 in vivo
AU - Liddament, Mark T.
AU - Brown, William L.
AU - Schumacher, April J.
AU - Harris, Reuben S.
N1 - Funding Information:
We thank N. Somia for the lentiviral production plasmids and the ATCC for the APOBEC3F IMAGE clone. We are indebted to A. Bielinsky, K. Conklin, T. Floss, T. Harris, E. Hendrickson, D. Livingston, D. MacDuff, M. Malim, L. Mansky, M. Neuberger, E. Refsland, M. Ross, and N. Somia for helpful comments. The University of Minnesota Advanced Genetic Analysis Center assisted in DNA sequencing, and the Cancer Center Flow Cytometry Core facilitated infectivity assays. This work was supported by a University of Minnesota start-up grant. R.S.H. is the recipient of a Burroughs-Wellcome Fund Hitchings-Elion Fellowship.
PY - 2004/8/10
Y1 - 2004/8/10
N2 - APOBEC3G (CEM15 [1]) deaminates cytosine to uracil in nascent retroviral cDNA [2-5]. The potency of this cellular defense is evidenced by a dramatic reduction in viral infectivity and the occurrence of high frequencies of retroviral genomic-strand G → A transition mutations [2-5]. The overwhelming dinucleotide hypermutation preference of APOBEC3G acting upon a variety of model retroviral substrates is 5′-GG → -AG [2-4, 6-8]. However, a distinct 5′-GA → -AA bias, which is difficult to attribute to APOBEC3G alone [9], prevails in HIV-1 sequences derived from infected individuals (e.g., [10]). Here, we show that APOBEC3F is also a potent retroviral restrictor but that its activity, unlike that of APOBEC3G, is partially resistant to HIV-1 Vif and results in a clear 5′-GA → -AA retroviral hypermutation preference. This bias is also apparent in a bacterial mutation assay, suggesting that it is an intrinsic APOBEC3F property. Moreover, APOBEC3F and APOBEC3G appear to be coordinately expressed in a wide range of human tissues and are independently able to inhibit retroviral infection. Thus, APOBEC3F and APOBEC3G are likely to function alongside one another in the provision of an innate immune defense, with APOBEC3F functioning as the major contributor to HIV-1 hypermutation in vivo.
AB - APOBEC3G (CEM15 [1]) deaminates cytosine to uracil in nascent retroviral cDNA [2-5]. The potency of this cellular defense is evidenced by a dramatic reduction in viral infectivity and the occurrence of high frequencies of retroviral genomic-strand G → A transition mutations [2-5]. The overwhelming dinucleotide hypermutation preference of APOBEC3G acting upon a variety of model retroviral substrates is 5′-GG → -AG [2-4, 6-8]. However, a distinct 5′-GA → -AA bias, which is difficult to attribute to APOBEC3G alone [9], prevails in HIV-1 sequences derived from infected individuals (e.g., [10]). Here, we show that APOBEC3F is also a potent retroviral restrictor but that its activity, unlike that of APOBEC3G, is partially resistant to HIV-1 Vif and results in a clear 5′-GA → -AA retroviral hypermutation preference. This bias is also apparent in a bacterial mutation assay, suggesting that it is an intrinsic APOBEC3F property. Moreover, APOBEC3F and APOBEC3G appear to be coordinately expressed in a wide range of human tissues and are independently able to inhibit retroviral infection. Thus, APOBEC3F and APOBEC3G are likely to function alongside one another in the provision of an innate immune defense, with APOBEC3F functioning as the major contributor to HIV-1 hypermutation in vivo.
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U2 - 10.1016/j.cub.2004.06.050
DO - 10.1016/j.cub.2004.06.050
M3 - Article
C2 - 15296757
AN - SCOPUS:4143071549
SN - 0960-9822
VL - 14
SP - 1385
EP - 1391
JO - Current Biology
JF - Current Biology
IS - 15
ER -