TY - JOUR
T1 - Transmembrane domains interactions within the membrane milieu
T2 - Principles, advances and challenges
AU - Fink, Avner
AU - Sal-Man, Neta
AU - Gerber, Doron
AU - Shai, Yechiel
N1 - Israel Science Foundation; Josef Cohn Minerva Center for Biomembrane Research; Minerva FoundationYechiel Shai has The Harold S. and Harriet B. Brady Professorial Chair in Cancer Research. This study was supported in part by the Israel Science Foundation, Josef Cohn Minerva Center for Biomembrane Research and the Minerva Foundation.
PY - 2012/4/1
Y1 - 2012/4/1
N2 - Protein-protein interactions within the membrane are involved in many vital cellular processes. Consequently, deficient oligomerization is associated with known diseases. The interactions can be partially or fully mediated by transmembrane domains (TMD). However, in contrast to soluble regions, our knowledge of the factors that control oligomerization and recognition between the membrane-embedded domains is very limited. Due to the unique chemical and physical properties of the membrane environment, rules that apply to interactions between soluble segments are not necessarily valid within the membrane. This review summarizes our knowledge on the sequences mediating TMD-TMD interactions which include conserved motifs such as the GxxxG, QxxS, glycine and leucine zippers, and others. The review discusses the specific role of polar, charged and aromatic amino acids in the interface of the interacting TMD helices. Strategies to determine the strength, dynamics and specificities of these interactions by experimental (ToxR, TOXCAT, GALLEX and FRET) or various computational approaches (molecular dynamic simulation and bioinformatics) are summarized. Importantly, the contribution of the membrane environment to the TMD-TMD interaction is also presented. Studies utilizing exogenously added TMD peptides have been shown to influence in vivo the dimerization of intact membrane proteins involved in various diseases. The chirality independent TMD-TMD interactions allows for the design of novel short d- and l-amino acids containing TMD peptides with advanced properties. Overall these studies shed light on the role of specific amino acids in mediating the assembly of the TMDs within the membrane environment and their contribution to protein function.
AB - Protein-protein interactions within the membrane are involved in many vital cellular processes. Consequently, deficient oligomerization is associated with known diseases. The interactions can be partially or fully mediated by transmembrane domains (TMD). However, in contrast to soluble regions, our knowledge of the factors that control oligomerization and recognition between the membrane-embedded domains is very limited. Due to the unique chemical and physical properties of the membrane environment, rules that apply to interactions between soluble segments are not necessarily valid within the membrane. This review summarizes our knowledge on the sequences mediating TMD-TMD interactions which include conserved motifs such as the GxxxG, QxxS, glycine and leucine zippers, and others. The review discusses the specific role of polar, charged and aromatic amino acids in the interface of the interacting TMD helices. Strategies to determine the strength, dynamics and specificities of these interactions by experimental (ToxR, TOXCAT, GALLEX and FRET) or various computational approaches (molecular dynamic simulation and bioinformatics) are summarized. Importantly, the contribution of the membrane environment to the TMD-TMD interaction is also presented. Studies utilizing exogenously added TMD peptides have been shown to influence in vivo the dimerization of intact membrane proteins involved in various diseases. The chirality independent TMD-TMD interactions allows for the design of novel short d- and l-amino acids containing TMD peptides with advanced properties. Overall these studies shed light on the role of specific amino acids in mediating the assembly of the TMDs within the membrane environment and their contribution to protein function.
KW - GALEX
KW - Helix-helix interaction
KW - Recognition within the membrane
KW - TOXCAT
KW - ToxR
KW - Transmembrane domain
UR - http://www.scopus.com/inward/record.url?scp=84857652632&partnerID=8YFLogxK
U2 - https://doi.org/10.1016/j.bbamem.2011.11.029
DO - https://doi.org/10.1016/j.bbamem.2011.11.029
M3 - مقالة مرجعية
C2 - 22155642
SN - 0005-2736
VL - 1818
SP - 974
EP - 983
JO - Biochimica Et Biophysica Acta-Biomembranes
JF - Biochimica Et Biophysica Acta-Biomembranes
IS - 4
ER -