Evolution of Two Amino Acid Positions Governing Broad Neutralization Resistance in a Strain of Feline Immunodeficiency Virus over 7 Years of Persistence in Cats

Pistello, Mauro; Matteucci, Donatella; Giannecchini, Simone; Bonci, Francesca; Sichi, Olimpia; Presciuttini, Silvano; Bendinelli, Mauro

doi:10.1128/cdli.10.6.1109-1116.2003

Cited by 4 publications

(6 citation statements)

References 33 publications

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“…V5 was mapped by using synthetic peptides for a possible linear epitope based on the sequence of the 19k1-560 strain (Siebelink et al, 1995), and it was demonstrated that a single mutation at position 560 may be involved concurrently with another mutation at 483 (V4 loop) in one or more conformational epitopes, but no linear epitope was mapped in V5. Further, two independent mutations have been reported that resulted in the creation of potential N-linked glycosylation sites in V4 (K481N) and V5 (S557N) and which contributed to the conversion from a neutralization-sensitive to a neutralization-resistant phenotype (Giannecchini et al, 2001;Pistello et al, 2003). In comparison, the conversion from a weakly neutralized or neutralization-resistant to a strongly neutralized phenotype described herein was mediated by mutation of V5 alone.…”

mentioning

confidence: 81%

“…Previous studies have demonstrated the importance of V5 in virus neutralization (Giannecchini et al, 2001;Pistello et al, 2003;Siebelink et al, 1995). V5 was mapped by using synthetic peptides for a possible linear epitope based on the sequence of the 19k1-560 strain (Siebelink et al, 1995), and it was demonstrated that a single mutation at position 560 may be involved concurrently with another mutation at 483 (V4 loop) in one or more conformational epitopes, but no linear epitope was mapped in V5.…”

Section: Discussionmentioning

confidence: 99%

“…By the time functional NAbs develop, virus variants that can escape the monospecific serum may have already evolved in vivo. The solution to this dilemma would appear to lie in the identification of framework determinants in Env that induce antibodies that are broadly active, refocusing the immune response either by silencing the immunodominant (but ultimately ineffectual) determinants in V4 and V5, or by presenting them in a such a way as to induce antibodies that recognize structures or motifs that are difficult or impossible for the virus to vary.Previous studies have demonstrated the importance of V5 in virus neutralization (Giannecchini et al, 2001;Pistello et al, 2003;Siebelink et al, 1995). V5 was mapped by using synthetic peptides for a possible linear epitope based on the sequence of the 19k1-560 strain (Siebelink et al, 1995), and it was demonstrated that a single mutation at position 560 may be involved concurrently with another mutation at 483 (V4 loop) in one or more conformational epitopes, but no linear epitope was mapped in V5.…”

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confidence: 99%

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Neutralization of feline immunodeficiency virus by antibodies targeting the V5 loop of Env

Samman

Logan

McMonagle

et al. 2009

Journal of General Virology

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Neutralizing antibodies (NAbs) play a vital role in vaccine-induced protection against infection with feline immunodeficiency virus (FIV). However, little is known about the appropriate presentation of neutralization epitopes in order to induce NAbs effectively; the majority of the antibodies that are induced are directed against non-neutralizing epitopes. Here, we demonstrate that a subtype B strain of FIV, designated NG4, escapes autologous NAbs, but may be rendered neutralization-sensitive following the insertion of two amino acids, KT, at positions 556-557 in the fifth hypervariable (V5) loop of the envelope glycoprotein. Consistent with the contribution of this motif to virus neutralization, an additional three subtype B strains retaining both residues at the same position were also neutralized by the NG4 serum, and serum from an unrelated cat (TOT1) targeted the same sequence in V5. Moreover, when the V5 loop of subtype B isolate KNG2, an isolate that was moderately resistant to neutralization by NG4 serum, was mutated to incorporate the KT motif, the virus was rendered sensitive to neutralization. These data suggest that, even in a polyclonal serum derived from FIV-infected cats following natural infection, the primary determinant of virus-neutralizing activity may be represented by a single, dominant epitope in V5. INTRODUCTIONFeline immunodeficiency virus (FIV) was first isolated in 1986 in Petaluma, CA, USA, from a cat with an immunodeficiency-like syndrome (Pedersen et al., 1987) and is an important pathogen of domestic cats worldwide. FIV is the feline homologue of human immunodeficiency virus (HIV) and these viruses share many biological and pathogenic features (Bendinelli et al., 1995;English et al., 1993;Johnson et al., 1994), typified by a selective targeting of CD4 + T lymphocytes and the induction of a progressive immunosuppression (Ackley et al., 1990).The induction of an effective humoral response against lentivirus infection is a key element in the immunological control of the disease, and the primary target for neutralizing antibodies (NAbs) is the virus envelope glycoprotein (Env) (Binley et al., 2004;Frost et al., 2005;Wei et al., 2003). Env varies by up to 30 % amongst FIV subtypes (Hosie & Beatty, 2007) and, thus, the preparation of an immunogen capable of inducing broadly neutralizing antibody responses against such diverse isolates of FIV would be of great value to the development of an FIV vaccine. Further, the development of a vaccine against FIV would have implications extending beyond veterinary medicine; FIV is the only non-primate lentivirus that induces AIDS-like symptoms in its natural host and, as such, is a valuable animal model for both prophylactic and therapeutic studies for HIV (Bendinelli et al., 1995;Elder et al., 1998;Okada et al., 1994). Moreover, cats have the advantage of being easier to breed and have shorter life cycles than other animal models currently used for HIV research (Miller et al., 2000).Previous studies showed that vaccination with whole inactivated va...

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confidence: 81%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Neutralization of feline immunodeficiency virus by antibodies targeting the V5 loop of Env

Samman

Logan

McMonagle

et al. 2009

Journal of General Virology

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“…A single mutation at position 560 in V5 may be involved concurrently with an additional mutation at 483 in the V4 loop to form a conformation-dependent determinant for neutralizing antibody [ 68 ]. Independently, two mutations that resulted in the creation of potential sites for N-linked glycosylation in V4 (K481N) and V5 (S557N) contributed to the conversion of FIV from a neutralization-sensitive to neutralization-resistant phenotype [ 65 , 69 ]. Further evidence for the importance of the V5 region of FIV to the control of viral replication in vivo has been uncovered in analyses of the evolution of a molecular clone of the GL8 strain over time.…”

Section: Fiv Neutralizing Antibodiesmentioning

confidence: 99%

Feline Immunodeficiency Virus (FIV) Neutralization: A Review

Hosie

Pajek

Samman

et al. 2011

Viruses

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One of the major obstacles that must be overcome in the design of effective lentiviral vaccines is the ability of lentiviruses to evolve in order to escape from neutralizing antibodies. The primary target for neutralizing antibodies is the highly variable viral envelope glycoprotein (Env), a glycoprotein that is essential for viral entry and comprises both variable and conserved regions. As a result of the complex trimeric nature of Env, there is steric hindrance of conserved epitopes required for receptor binding so that these are not accessible to antibodies. Instead, the humoral response is targeted towards decoy immunodominant epitopes on variable domains such as the third hypervariable loop (V3) of Env. For feline immunodeficiency virus (FIV), as well as the related human immunodeficiency virus-1 (HIV-1), little is known about the factors that lead to the development of broadly neutralizing antibodies. In cats infected with FIV and patients infected with HIV-1, only rarely are plasma samples found that contain antibodies capable of neutralizing isolates from other clades. In this review we examine the neutralizing response to FIV, comparing and contrasting with the response to HIV. We ask whether broadly neutralizing antibodies are induced by FIV infection and discuss the comparative value of studies of neutralizing antibodies in FIV infection for the development of more effective vaccine strategies against lentiviral infections in general, including HIV-1.

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“…457 Although the V3 immunodominant domain is the only FIV Env determinant consistently shown to induce antibodies capable of neutralizing virus in vitro, [252][253][254] determinants within domains V4 and V5, including residues 481 and 551, were also shown to confer broad neutralization resistance (BNR) in primary isolates passaged in vivo (Figure 3). 455,[458][459][460][461][462] The remaining FIV envelope linear epitopes mapped by binding assays are most likely inaccessible for neutralization due to the complex oligomeric structure and extensive glycosylation of native FIV SU, a property shared with HIV-1 SU. 449,454,463 Expression of both neutralizing epitopes and tropism determinants by the FIV hypervariable V3 domain is an important function also described for the V3 domain of HIV-1 surface glycoprotein.…”

Section: Immune Responsesmentioning

confidence: 99%

FIV as a Model for HIV: An Overview

Sparger

In Vivo Models of HIV Disease and Control

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Evolution of Two Amino Acid Positions Governing Broad Neutralization Resistance in a Strain of Feline Immunodeficiency Virus over 7 Years of Persistence in Cats

Cited by 4 publications

References 33 publications

Neutralization of feline immunodeficiency virus by antibodies targeting the V5 loop of Env

Neutralization of feline immunodeficiency virus by antibodies targeting the V5 loop of Env

Feline Immunodeficiency Virus (FIV) Neutralization: A Review

FIV as a Model for HIV: An Overview

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