Developmentally heterogeneous renin-expressing cells serve as progenitors for mural, glomerular, and tubular cells during nephrogenesis and are collectively termed renin lineage cells (RLCs). In this study, we quantified different renal vascular and tubular cell types based on specific markers and assessed proliferation and de novo differentiation in the RLC population. We used kidney sections of mRenCre-mT/mG mice throughout nephrogenesis. Marker positivity was evaluated in whole digitalized sections. At embryonic day 16, RLCs appeared in the developing kidney, and the expression of all stained markers in RLCs was observed. The proliferation rate of RLCs did not differ from the proliferation rate of non-RLCs. RLCs expanded mainly by de novo differentiation (neogenesis). Fractions of RLCs originating from the stromal progenitors of the metanephric mesenchyme (renin-producing cells, vascular smooth muscle cells, and mesangial cells) decreased during nephrogenesis. In contrast, aquaporin-2-positive RLCs in the collecting duct system, which embryonically emerges almost exclusively from the ureteric bud, expanded postpartum. The cubilin-positive RLC fraction in the proximal tubule, deriving from the cap mesenchyme, remained constant. In summary, RLCs were continuously detectable in the vascular and tubular compartments of the kidney during nephrogenesis. Therein, various patterns of RLC differentiation that depend on the embryonic origin of the cells were identified. NEW & NOTEWORTHY The unifying feature of the renal renin lineage cells (RLCs) is their origin from renin-expressing progenitors. RLCs evolve to an embryologically heterogeneous large population in structures with different ancestry. RLCs are also targets for the widely used renin-Angiotensin-system blockers, which modulate their phenotype. Unveiling the different differentiation patterns of RLCs in the developing kidney contributes to understanding changes in their cell fate in response to homeostatic challenges and the use of antihypertensive drugs.