OBJECTIVE: A therapeutic vaccination based on a synthetic peptide (AT20) representative of the HIV-1 matrix protein p17 (p17) functional region, coupled to keyhole limpet hemocyanin (KLH) AT20-KLH was capable of inducing the production of high-avidity antibodies (Abs) toward a previous untargeted p17 hotspot of functional activity in highly active antiretroviral therapy (HAART)-treated HIV-1-infected patients. Since avidity of Abs after immunization and the retention of antigens are important in sustaining the long-lasting production of specific humoral responses, we asked whether AT20-KLH vaccination would result in development of a long-lived immune response. METHODS: The long-term duration of Ab response to AT20-KLH has been evaluated in 10 patients previously enrolled for the AT20-KLH vaccination trial at day 898 post-immunization. Ab titer and their avidity was assessed using specifically designed ELISA assays, whereas their neutralizing capacity was estimated in vitro using a 'wound sealing assay'. RESULTS: Data obtained show that high titers of specific anti-AT20 Abs were maintained at more than 2 years after the last immunization. Furthermore, these Abs were capable to neutralize exogenous p17, as assessed by ability of sera derived from AT20-KLH-immunized patients to block the ability of p17 to promote cell migration in vitro. CONCLUSION: This finding attests for a successful AT20-KLH vaccine molecule formulation and for an effective HAART-dependent Ab persistence.
OBJECTIVE: A therapeutic vaccination based on a synthetic peptide (AT20) representative of the HIV-1 matrix protein p17 (p17) functional region, coupled to keyhole limpet hemocyanin (KLH) AT20-KLH was capable of inducing the production of high-avidity antibodies (Abs) toward a previous untargeted p17 hotspot of functional activity in highly active antiretroviral therapy (HAART)-treated HIV-1-infectedpatients. Since avidity of Abs after immunization and the retention of antigens are important in sustaining the long-lasting production of specific humoral responses, we asked whether AT20-KLH vaccination would result in development of a long-lived immune response. METHODS: The long-term duration of Ab response to AT20-KLH has been evaluated in 10 patients previously enrolled for the AT20-KLH vaccination trial at day 898 post-immunization. Ab titer and their avidity was assessed using specifically designed ELISA assays, whereas their neutralizing capacity was estimated in vitro using a 'wound sealing assay'. RESULTS: Data obtained show that high titers of specific anti-AT20 Abs were maintained at more than 2 years after the last immunization. Furthermore, these Abs were capable to neutralize exogenous p17, as assessed by ability of sera derived from AT20-KLH-immunized patients to block the ability of p17 to promote cell migration in vitro. CONCLUSION: This finding attests for a successful AT20-KLH vaccine molecule formulation and for an effective HAART-dependent Ab persistence.
Authors: Francesca Caccuri; Serena Messali; Alberto Zani; Giovanni Campisi; Marta Giovanetti; Stefania Zanussi; Emanuela Vaccher; Silvia Fabris; Antonella Bugatti; Emanuele Focà; Francesco Castelli; Massimo Ciccozzi; Riccardo Dolcetti; Robert C Gallo; Arnaldo Caruso Journal: Proc Natl Acad Sci U S A Date: 2022-06-28 Impact factor: 12.779
Authors: Francesca Caccuri; Vera Neves; Arnaldo Caruso; Miguel Castanho; Lurdes Gano; João D G Correia; Maria Cristina Oliveira; Pietro Mazzuca Journal: J Virol Date: 2021-10-20 Impact factor: 6.549
Authors: Kai Kammers; Athena Chen; Daniel R Monaco; Sarah E Hudelson; Wendy Grant-McAuley; Richard D Moore; Galit Alter; Steven G Deeks; Charles S Morrison; Leigh A Eller; Joel N Blankson; Oliver Laeyendecker; Ingo Ruczinski; Susan H Eshleman; H Benjamin Larman Journal: Front Immunol Date: 2021-08-26 Impact factor: 7.561