PREP1/p160 is a protein complex with relevant physiopathological roles in vivo. p160 regulates PREP1 transcriptional activity by preventing the formation of other PREP1-containing complexes, whereas PREP1 regulates p160 activity by increasing its stability. This induces the repression of the insulin-regulated glucose transporter GLUT4 dampening insulin sensitivity. In spite of the considerable amount of functional studies performed on the PREP1/p160 complex in vivo, a biochemical and structural characterization of this complex has not been so far undertaken, given the poor stability of the recombinant full-length proteins. Here, we report the design and preparation of PREP1 and p160 domains together with preliminary structural and binding studies. PREP1, residues 45-155, and p160, residues 20-160, have been expressed and purified as folded, monomeric domains. The two domains show both all-alpha secondary structures, as demonstrated by CD studies and are endowed with unusually high thermal stabilities. We have also estimated for the first time the PREP1-p160 interaction strength finding that the two recombinant domains interact with a KD ranging between about 0.3 and 1 mu M. Altogether, data suggest that the selected PREP1 and p160 domains are structurally independent and that their structure is underlined by high stability and a prevailing alpha-helical organization.
The Interacting Domains of PREP1 and p160 are Endowed with a Remarkable Structural Stability
Lorenzo Virginia;Mascanzoni Fabiola;Vitagliano Luigi;Ruvo Menotti;Doti Nunzianna
2016
Abstract
PREP1/p160 is a protein complex with relevant physiopathological roles in vivo. p160 regulates PREP1 transcriptional activity by preventing the formation of other PREP1-containing complexes, whereas PREP1 regulates p160 activity by increasing its stability. This induces the repression of the insulin-regulated glucose transporter GLUT4 dampening insulin sensitivity. In spite of the considerable amount of functional studies performed on the PREP1/p160 complex in vivo, a biochemical and structural characterization of this complex has not been so far undertaken, given the poor stability of the recombinant full-length proteins. Here, we report the design and preparation of PREP1 and p160 domains together with preliminary structural and binding studies. PREP1, residues 45-155, and p160, residues 20-160, have been expressed and purified as folded, monomeric domains. The two domains show both all-alpha secondary structures, as demonstrated by CD studies and are endowed with unusually high thermal stabilities. We have also estimated for the first time the PREP1-p160 interaction strength finding that the two recombinant domains interact with a KD ranging between about 0.3 and 1 mu M. Altogether, data suggest that the selected PREP1 and p160 domains are structurally independent and that their structure is underlined by high stability and a prevailing alpha-helical organization.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.