Begomoviruses are a group of single stranded DNA plant viruses exclusively transmitted by the sweet potato whitefly Bemisia tabaci in a persistent, circulative manner. After acquisition from plant phloem, this group of viruses circulate and are retained within the whitefly, interacting with tissues, cells and molecular pathways for maintaining the safety of the infective intact virions, by exploiting cellular mechanisms and avoiding degradation by the insect immune responses. During retention, the virions are internalized in the midgut cells, exit and spend hours-days in the hemolymph and cross into salivary gland cells, before transmission. Destroying this group of viruses by the insect immune system seems inefficient for the most part, by examining their very efficient transmission. Thus, within the various sites along the transmission pathway especially in the midgut, it is thought that the immune system with its various layers is activated for avoiding the damage caused by the viruses on one hand, and for ensuring their safe circulation and transmission on the other hand. Begomoviruses have evolved mechanisms for counteracting and exploiting the activated immune system for their safe translocation within the whitefly. In this review, we discuss the various levels of immunity activated against begomoviruses in B. tabaci, taking other pathogen-vector systems as examples and reflecting relevant components on the interactions between B. tabaci and Begomoviruses.