A new role for the architecture of microvillar actin bundles in apical retention of membrane proteins

  • Mol Biol Cell. 2012 Jan;23(2):324-36. doi: 10.1091/mbc.E11-09-0765.
Céline Revenu  1 Florent Ubelmann Ilse Hurbain Fatima El-Marjou Florent Dingli Damarys Loew Delphine Delacour Jules Gilet Edith Brot-Laroche Francisco Rivero Daniel Louvard Sylvie Robine
Affiliations
  • 1. Unité Mixte de Recherche 144, Centre National de la Recherche Scientifique, Institut Curie, 75248 Paris, Cedex 05, France. [email protected]
Abstract

Actin-bundling proteins are identified as key players in the morphogenesis of thin membrane protrusions. Until now, functional redundancy among the actin-bundling proteins villin, espin, and plastin-1 has prevented definitive conclusions regarding their role in intestinal microvilli. We report that triple knockout mice lacking these microvillar actin-bundling proteins suffer from growth delay but surprisingly still develop microvilli. However, the microvillar actin filaments are sparse and lack the characteristic organization of bundles. This correlates with a highly inefficient apical retention of Enzymes and transporters that accumulate in subapical endocytic compartments. Myosin-1a, a motor involved in the anchorage of membrane proteins in microvilli, is also mislocalized. These findings illustrate, in vivo, a precise role for local actin filament architecture in the stabilization of apical cargoes into microvilli. Hence, the function of actin-bundling proteins is not to enable microvillar protrusion, as has been assumed, but to confer the appropriate actin organization for the apical retention of proteins essential for normal intestinal physiology.