Safety and immunogenicity of a subtype C ALVAC-HIV (vCP2438) vaccine prime plus bivalent subtype C gp120 vaccine boost adjuvanted with MF59 or alum in healthy adults without HIV (HVTN 107): A phase 1/2a randomized trial.

IF 15.8 1区 医学 Q1 Medicine
PLoS Medicine Pub Date : 2024-03-19 eCollection Date: 2024-03-01 DOI:10.1371/journal.pmed.1004360
Zoe Moodie, Erica Andersen-Nissen, Nicole Grunenberg, One B Dintwe, Faatima Laher Omar, Jia J Kee, Linda-Gail Bekker, Fatima Laher, Nivashnee Naicker, Ilesh Jani, Nyaradzo M Mgodi, Portia Hunidzarira, Modulakgota Sebe, Maurine D Miner, Laura Polakowski, Shelly Ramirez, Michelle Nebergall, Simbarashe Takuva, Lerato Sikhosana, Jack Heptinstall, Kelly E Seaton, Stephen De Rosa, Carlos A Diazgranados, Marguerite Koutsoukos, Olivier Van Der Meeren, Susan W Barnett, Niranjan Kanesa-Thasan, James G Kublin, Georgia D Tomaras, M Juliana McElrath, Lawrence Corey, Kathryn Mngadi, Paul Goepfert
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引用次数: 0

Abstract

Background: Adjuvants are widely used to enhance and/or direct vaccine-induced immune responses yet rarely evaluated head-to-head. Our trial directly compared immune responses elicited by MF59 versus alum adjuvants in the RV144-like HIV vaccine regimen modified for the Southern African region. The RV144 trial of a recombinant canarypox vaccine vector expressing HIV env subtype B (ALVAC-HIV) prime followed by ALVAC-HIV plus a bivalent gp120 protein vaccine boost adjuvanted with alum is the only trial to have shown modest HIV vaccine efficacy. Data generated after RV144 suggested that use of MF59 adjuvant might allow lower protein doses to be used while maintaining robust immune responses. We evaluated safety and immunogenicity of an HIV recombinant canarypox vaccine vector expressing HIV env subtype C (ALVAC-HIV) prime followed by ALVAC-HIV plus a bivalent gp120 protein vaccine boost (gp120) adjuvanted with alum (ALVAC-HIV+gp120/alum) or MF59 (ALVAC-HIV+gp120/MF59) or unadjuvanted (ALVAC-HIV+gp120/no-adjuvant) and a regimen where ALVAC-HIV+gp120 adjuvanted with MF59 was used for the prime and boost (ALVAC-HIV+gp120/MF59 coadministration).

Methods and findings: Between June 19, 2017 and June 14, 2018, 132 healthy adults without HIV in South Africa, Zimbabwe, and Mozambique were randomized to receive intramuscularly: (1) 2 priming doses of ALVAC-HIV (months 0 and 1) followed by 3 booster doses of ALVAC-HIV+gp120/MF59 (months 3, 6, and 12), n = 36; (2) 2 priming doses of ALVAC-HIV (months 0 and 1) followed by 3 booster doses of ALVAC-HIV+gp120/alum (months 3, 6, and 12), n = 36; (3) 4 doses of ALVAC-HIV+gp120/MF59 coadministered (months 0, 1, 6, and 12), n = 36; or (4) 2 priming doses of ALVAC-HIV (months 0 and 1) followed by 3 booster doses of ALVAC-HIV+gp120/no adjuvant (months 3, 6, and 12), n = 24. Primary outcomes were safety and occurrence and mean fluorescence intensity (MFI) of vaccine-induced gp120-specific IgG and IgA binding antibodies at month 6.5. All vaccinations were safe and well-tolerated; increased alanine aminotransferase was the most frequent related adverse event, occurring in 2 (1.5%) participants (1 severe, 1 mild). At month 6.5, vaccine-specific gp120 IgG binding antibodies were detected in 100% of vaccinees for all 4 vaccine groups. No significant differences were seen in the occurrence and net MFI of vaccine-specific IgA responses between the ALVAC-HIV+gp120/MF59-prime-boost and ALVAC-HIV+gp120/alum-prime-boost groups or between the ALVAC-HIV+gp120/MF59-prime-boost and ALVAC-HIV+gp120/MF59 coadministration groups. Limitations were the relatively small sample size per group and lack of evaluation of higher gp120 doses.

Conclusions: Although MF59 was expected to enhance immune responses, alum induced similar responses to MF59, suggesting that the choice between these adjuvants may not be critical for the ALVAC+gp120 regimen.

Trial registration: HVTN 107 was registered with the South African National Clinical Trials Registry (DOH-27-0715-4894) and ClinicalTrials.gov (NCT03284710).

C 亚型 ALVAC-HIV (vCP2438) 疫苗原种加用 MF59 或明矾佐剂的二价 C 亚型 gp120 增效疫苗在未感染 HIV 的健康成人中的安全性和免疫原性(HVTN 107):1/2a期随机试验。
背景:佐剂被广泛用于增强和/或引导疫苗诱导的免疫反应,但很少进行头对头的评估。我们的试验直接比较了在针对南部非洲地区改良的 RV144 类 HIV 疫苗方案中,MF59 佐剂与明矾佐剂所引起的免疫反应。在 RV144 试验中,先接种表达 B 亚型 HIV env 的重组加那利痘疫苗载体(ALVAC-HIV),然后接种 ALVAC-HIV 加用明矾佐剂的二价 gp120 蛋白疫苗增强剂,这是唯一显示出适度 HIV 疫苗效力的试验。RV144 试验后获得的数据表明,使用 MF59 佐剂可以降低蛋白剂量,同时维持强大的免疫反应。我们评估了表达 HIV env C 亚型的 HIV 重组加那利痘疫苗载体(ALVAC-HIV)原体的安全性和免疫原性,然后评估了 ALVAC-HIV 加用明矾佐剂的二价 gp120 蛋白疫苗增强剂(gp120)(ALVAC-HIV+gp120/明矾)的安全性和免疫原性。HIV+gp120/明矾)或 MF59(ALVAC-HIV+gp120/MF59)佐剂或无佐剂(ALVAC-HIV+gp120/无佐剂)佐剂,以及将 ALVAC-HIV+gp120 与 MF59 佐剂用于前体和加强体的方案(ALVAC-HIV+gp120/MF59 联合给药)。方法和结果:2017年6月19日至2018年6月14日期间,南非、津巴布韦和莫桑比克的132名未感染艾滋病毒的健康成年人随机接受了肌肉注射:(1) 2剂ALVAC-HIV(第0和第1个月),然后是3剂ALVAC-HIV+gp120/MF59(第3、6和12个月),n = 36;(2) 2剂ALVAC-HIV(第0和第1个月),然后是3剂ALVAC-HIV+gp120/alum(第3、6和12个月),n = 36;(3) 联合给药 4 次 ALVAC-HIV+gp120/MF59(第 0、1、6 和 12 个月),n = 36;或 (4) 给药 2 次 ALVAC-HIV(第 0 和 1 个月),然后给药 3 次 ALVAC-HIV+gp120/无辅助剂(第 3、6 和 12 个月),n = 24。主要结果是安全性以及第 6.5 个月时疫苗诱导的 gp120 特异性 IgG 和 IgA 结合抗体的发生率和平均荧光强度 (MFI)。所有疫苗接种均安全且耐受性良好;丙氨酸氨基转移酶升高是最常见的相关不良事件,有 2 名参与者(1.5%)发生(1 例重度,1 例轻度)。第 6.5 个月时,在所有 4 个疫苗组中,100% 的接种者都检测到了疫苗特异性 gp120 IgG 结合抗体。在ALVAC-HIV+gp120/MF59-prime-boost组和ALVAC-HIV+gp120/alum-prime-boost组之间,以及在ALVAC-HIV+gp120/MF59-prime-boost组和ALVAC-HIV+gp120/MF59联合给药组之间,疫苗特异性IgA反应的发生率和净MFI均无明显差异。不足之处是每组样本量相对较小,且缺乏对更高剂量gp120的评估:结论:尽管MF59有望增强免疫反应,但明矾诱导的反应与MF59相似,这表明在ALVAC+gp120方案中选择这些佐剂可能并不重要:HVTN 107已在南非国家临床试验注册中心(DOH-27-0715-4894)和ClinicalTrials.gov(NCT03284710)注册。
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来源期刊
PLoS Medicine
PLoS Medicine MEDICINE, GENERAL & INTERNAL-
CiteScore
17.60
自引率
0.60%
发文量
227
审稿时长
4-8 weeks
期刊介绍: PLOS Medicine is a prominent platform for discussing and researching global health challenges. The journal covers a wide range of topics, including biomedical, environmental, social, and political factors affecting health. It prioritizes articles that contribute to clinical practice, health policy, or a better understanding of pathophysiology, ultimately aiming to improve health outcomes across different settings. The journal is unwavering in its commitment to uphold the highest ethical standards in medical publishing. This includes actively managing and disclosing any conflicts of interest related to reporting, reviewing, and publishing. PLOS Medicine promotes transparency in the entire review and publication process. The journal also encourages data sharing and encourages the reuse of published work. Additionally, authors retain copyright for their work, and the publication is made accessible through Open Access with no restrictions on availability and dissemination. PLOS Medicine takes measures to avoid conflicts of interest associated with advertising drugs and medical devices or engaging in the exclusive sale of reprints.
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