1. Academic Validation
  2. Tail-anchored Protein Insertion in Mammals: FUNCTION AND RECIPROCAL INTERACTIONS OF THE TWO SUBUNITS OF THE TRC40 RECEPTOR

Tail-anchored Protein Insertion in Mammals: FUNCTION AND RECIPROCAL INTERACTIONS OF THE TWO SUBUNITS OF THE TRC40 RECEPTOR

  • J Biol Chem. 2016 Jul 15;291(29):15292-306. doi: 10.1074/jbc.M115.707752.
Sara Francesca Colombo 1 Silvia Cardani 2 Annalisa Maroli 2 Adriana Vitiello 2 Paolo Soffientini 3 Arianna Crespi 2 Richard F Bram 4 Roberta Benfante 2 Nica Borgese 5
Affiliations

Affiliations

  • 1 From the CNR Institute of Neuroscience and BIOMETRA Department, Università degli Studi di Milano and s.colombo@in.cnr.it.
  • 2 From the CNR Institute of Neuroscience and BIOMETRA Department, Università degli Studi di Milano and.
  • 3 IFOM, the FIRC Institute for Molecular Oncology Foundation, Milan, Italy 20100 and.
  • 4 Mayo Clinic, Rochester, Minnesota 55905.
  • 5 From the CNR Institute of Neuroscience and BIOMETRA Department, Università degli Studi di Milano and n.borgese@in.cnr.it.
Abstract

The GET (guided entry of tail-anchored proteins)/TRC (transmembrane recognition complex) pathway for tail-anchored protein targeting to the endoplasmic reticulum (ER) has been characterized in detail in yeast and is thought to function similarly in mammals, where the orthologue of the central ATPase, Get3, is known as TRC40 or Asna1. Get3/TRC40 function requires an ER receptor, which in yeast consists of the Get1/Get2 heterotetramer and in mammals of the WRB protein (tryptophan-rich basic protein), homologous to yeast Get1, in combination with CAML (calcium-modulating Cyclophilin ligand), which is not homologous to Get2. To better characterize the mammalian receptor, we investigated the role of endogenous WRB and CAML in tail-anchored protein insertion as well as their association, concentration, and stoichiometry in rat liver microsomes and cultured cells. Functional proteoliposomes, reconstituted from a microsomal detergent extract, lost their activity when made with an extract depleted of TRC40-associated proteins or of CAML itself, whereas in vitro synthesized CAML and WRB together were sufficient to confer insertion competence to liposomes. CAML was found to be in ∼5-fold excess over WRB, and alteration of this ratio did not inhibit insertion. Depletion of each subunit affected the levels of the other one; in the case of CAML silencing, this effect was attributable to destabilization of the WRB transcript and not of WRB protein itself. These results reveal unanticipated complexity in the mutual regulation of the TRC40 receptor subunits and raise the question as to the role of the excess CAML in the mammalian ER.

Keywords

Down syndrome; Proteoliposomes; endoplasmic reticulum (ER); mRNA stability; membrane biogenesis; membrane protein; membrane reconstitution; post-translational insertion; protein translocation.

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