Abstract
Kidney collecting system development requires integrin-dependent cell-extracellular matrix interactions. Integrins are heterodimeric transmembrane receptors consisting of α and β subunits; crucial integrins in the kidney collecting system express the β1 subunit. The β1 cytoplasmic tail has two NPxY motifs that mediate functions by binding to cytoplasmic signaling and scaffolding molecules. Talins, scaffolding proteins that bind to the membrane proximal NPxY motif, are proposed to activate integrins and to link them to the actin cytoskeleton. We have defined the role of talin binding to the β1 proximal NPxY motif in the developing kidney collecting system in mice that selectively express a Y-to-A mutation in this motif. The mice developed a hypoplastic dysplastic collecting system. Collecting duct cells expressing this mutation had moderate abnormalities in cell adhesion, migration, proliferation and growth factor-dependent signaling. In contrast, mice lacking talins in the developing ureteric bud developed kidney agenesis and collecting duct cells had severe cytoskeletal, adhesion and polarity defects. Thus, talins are essential for kidney collecting duct development through mechanisms that extend beyond those requiring binding to the β1 integrin subunit NPxY motif.
Highlights
The kidney consists of numerous nephrons that drain into the multibranched collecting system
The nephrons are derived from the metanephric mesenchyme, while the collecting system is formed by iterative branching of the ureteric bud (UB), a process regulated by multiple factors, including integrin-dependent cell-extracellular matrix (ECM) interactions (Mathew et al, 2012a)
Disrupting the NPxY talin binding site on integrin β1 leads to defective UB development To define the role of β1 integrin-talin interactions in UB development, we generated mice that selectively carry the Y783A substitution (Czuchra et al, 2006) in the developing UB
Summary
The kidney consists of numerous nephrons that drain into the multibranched collecting system. The nephrons are derived from the metanephric mesenchyme, while the collecting system is formed by iterative branching of the ureteric bud (UB), a process regulated by multiple factors, including integrin-dependent cell-extracellular matrix (ECM) interactions (Mathew et al, 2012a). Transmembrane receptors that mediate ECM interactions, are essential for multiple cell functions. Among the eight β subunits, integrin β1 is most abundantly expressed and pairs with 12 α subunits, including laminin- (α3, α6) and collagen- (α1, α2) binding subunits, thereby forming the principal integrins expressed by the kidney (Mathew et al, 2012a). Integrin β1 is required for normal kidney collecting system development and its selective deletion in the UB (E10.5) causes a severe branching morphogenesis defect (Zhang et al, 2009)
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