An optimal HIV vaccine should provide protective immunity before sexual debut to prevent infection in adolescents and young adults, including acute infections in women of childbearing age. Such a vaccine will likely require multiple sequential immunization doses and would therefore be ideally initiated in childhood. Many of the world's most successful vaccines are initiated in childhood for the induction of lifelong immunity and/or immunity that can be boosted later in life as part of the WHO Expanded Program on Immunization (EPI). Thus, the EPI vaccine framework provides an infrastructure that could be leveraged for the implementation of a multidose HIV immunization regimen. Early childhood also provides a window of time in which there is minimal HIV exposure risk, and the plasticity of the early life immune landscape may present advantages for the elicitation of broadly neutralizing Antibodies (bnAbs), a primary target for HIV vaccination. Sequential vaccination with adjuvanted immunogens targeting specific bnAb lineages is a promising HIV vaccine strategy, and several vaccine candidates are cur-rently being tested in adult clinical trials. It will be critical also to evaluate the most promising immunogens and adjuvants in pediatric settings. Preclinical studies, including in vitro and in silico modelling as well as studies in animal models, will be essential to guide the design of future pediatric vaccine trials. This review summarizes current advances in bnAb germline targeting immunization. It provides the rationale for a better integration of preclinical and clinical vaccine studies to facilitate the development of a vaccine that achieves protective immunity in preadolescence.