TY - JOUR
T1 - Retroviral infection in vivo requires an immune escape virulence factor encrypted in the envelope protein of oncoretroviruses
AU - Schlecht-Louf, Géraldine
AU - Renard, Martial
AU - Mangeney, Marianne
AU - Letzelter, Claire
AU - Richaud, Aurélien
AU - Ducos, Bertrand
AU - Bouallaga, Isabelle
AU - Heidmann, Thierry
PY - 2010/2/23
Y1 - 2010/2/23
N2 - We previously delineated a highly conserved immunosuppressive (IS) domain within murine and primate retroviral envelope proteins (Envs). The envelope-mediated immunosuppression was manifested by the ability of the proteins, when expressed by allogeneic tumor cells normally rejected by engrafted mice, to allow these cells to escape, at least transiently, immune rejection. Using this approach, we identified key residues whose mutation specifically abolishes IS activity without affecting the "mechanical" fusogenic function of the entire envelope. Here, we genetically "switched off' the envelopemediated immunosuppression of an infectious retrovirus, the Friend murine leukemia virus,while preservingmutant envelope infectivity bothex vivo and in vivo, thus allowing us to test thefunctional importance of envelope-mediated immunosuppression in retrovirus physiology. Remarkably, we show, in vivo, that the non-IS mutant virus displays the same propagation kinetics as its WT counterpart in irradiated immunocompromised mice but that it is rapidly and totally cleared from normal immunocompetent mice, which become fully protectedagainst achallengewiththeWTretrovirus.Usingcelldepletion strategies, we further establish that envelope-mediated immunosuppression enables the retrovirus to escape innate (natural killer cells) and adaptive (CD8 T cells) antiviral effectors. Finally, we show that inactivated mutant virions induce higher humoral and cellular responses than their WT counterparts. In conclusion, our work demonstrates the critical role of Env-induced immunosuppression for retrovirus propagation in vivo and identifies a unique definite target for antiretroviral therapies and vaccine strategies, also characterized in the human T-cell leukemia virus (HTLV) and xenotropicmurine leukemia virus-related virus (XMRV) retroviruses, opening unprecedented prospects for the treatment of retroviral diseases.
AB - We previously delineated a highly conserved immunosuppressive (IS) domain within murine and primate retroviral envelope proteins (Envs). The envelope-mediated immunosuppression was manifested by the ability of the proteins, when expressed by allogeneic tumor cells normally rejected by engrafted mice, to allow these cells to escape, at least transiently, immune rejection. Using this approach, we identified key residues whose mutation specifically abolishes IS activity without affecting the "mechanical" fusogenic function of the entire envelope. Here, we genetically "switched off' the envelopemediated immunosuppression of an infectious retrovirus, the Friend murine leukemia virus,while preservingmutant envelope infectivity bothex vivo and in vivo, thus allowing us to test thefunctional importance of envelope-mediated immunosuppression in retrovirus physiology. Remarkably, we show, in vivo, that the non-IS mutant virus displays the same propagation kinetics as its WT counterpart in irradiated immunocompromised mice but that it is rapidly and totally cleared from normal immunocompetent mice, which become fully protectedagainst achallengewiththeWTretrovirus.Usingcelldepletion strategies, we further establish that envelope-mediated immunosuppression enables the retrovirus to escape innate (natural killer cells) and adaptive (CD8 T cells) antiviral effectors. Finally, we show that inactivated mutant virions induce higher humoral and cellular responses than their WT counterparts. In conclusion, our work demonstrates the critical role of Env-induced immunosuppression for retrovirus propagation in vivo and identifies a unique definite target for antiretroviral therapies and vaccine strategies, also characterized in the human T-cell leukemia virus (HTLV) and xenotropicmurine leukemia virus-related virus (XMRV) retroviruses, opening unprecedented prospects for the treatment of retroviral diseases.
KW - Adaptive immunity
KW - Immunosuppression
KW - Infectious retrovirus
KW - Innate immunity
KW - Vaccination
UR - http://www.scopus.com/inward/record.url?scp=77649267384&partnerID=8YFLogxK
U2 - 10.1073/pnas.0913122107
DO - 10.1073/pnas.0913122107
M3 - Article
C2 - 20142478
AN - SCOPUS:77649267384
SN - 0027-8424
VL - 107
SP - 3782
EP - 3787
JO - Proceedings of the National Academy of Sciences of the United States of America
JF - Proceedings of the National Academy of Sciences of the United States of America
IS - 8
ER -