ARCHITECTURAL PATTERNS IN BRANCHING MORPHOGENESIS IN THE KIDNEY

During kidney development, several discrete steps generate its three-d imensional pattern including specific branch types, regional different ial growth of stems, the specific axes of growth and temporal progress ion of the pattern. The ureteric bud undergoes three different types o f branching. In the first, terminal bifid type, a lateral branch arise s and immediately bifurcates to form two terminal branches whose tips induce the formation of nephrons. After 15 such divisions (in humans) of this specifically renal type of branching, several nephrons are ind uced whose connecting tubules fuse and elongate to form the arcades. F inally, the last generations undergo strictly lateral branching to for m the cortical system. The stems of these branches elongate in a highl y regulated pattern. The molecular basis of these processes is unknown and we briefly review their potential mediators. Differential growth in three different axes of the kidney (cortico-medullary, dorso-ventra l and rostro-caudal) generate the characteristic shape of the kidney. Rapid advances in molecular genetics highlight the need for developmen t of specific assays for each of these discrete steps, a prerequisite for identification of the involved pathways. The identification of mol ecules that control branching (the ultimate determinant of the number of nephrons) has acquired new urgency with the recent suggestion that a reduced nephron number predisposes humans to hypertension and to pro gression of renal failure.