[Elucidating and characterizing the dynamic biological processes that account for the sustainability of Leishmania populations].

To attempt resolving this issue accurately, it was necessary to anchor our experimental approaches in the observations and pioneering work of our predecessors, notably Alphonse Laveran, Louis Parrot, Edmond and Étienne Sergent. The latter, among other things, had identified as natural hosts of leishmaniasis, rodent populations with which hematophagous telmophagous sand fly populations cohabited closely.When human populations emerged in these natural ecosystems, after the sedentarization of Homo sapiens, more or less important disturbances would have led to a transition of sand fly hematophagy, from zoophilia, to zoo-anthropophilia and anthropophilia.The creation of infrastructures that allow the breeding and integration into experimental groups of both holobiont sand flies and holobiont laboratory rodents (rats, mice, hamsters, etc.) remains crucial. With such infrastructures, it becomes possible to grasp and characterize the multilateral dynamic processes - mostly clinically silent - that account for the biogenesis of tissue and/or cellular niches protecting populations of Leishmania developmental morphotypes, including those ensuring host-to-host transmission, albeit in small numbers.