TY - JOUR
T1 - On the regulatory role of dipeptidyl peptidase IV (=CD26=adenosine deaminase complexing protein) on adenosine deaminase activity
AU - Ben-Shooshan, Itzhak
AU - Kessel, Amit
AU - Ben-Tal, Nir
AU - Cohen-Luria, Rivka
AU - Parola, Abraham H.
N1 - Funding Information:
We wish to thank Dr. I. Fishov for critical discussions and E. Davicioni for editing. The help of Dr. J. Cohen for DLS measurements is highly appreciated. This work was partially supported by the Office of Naval Research, Grant #N00014-89-J-1625 and #N00014-96-1-80 and by The Charles H. Revson Basic Research Foundation for Life Sciences and Humanities #348/91-3 to AHP, and by Grant #683/971-1 from the Israel Science Foundation and fellowships from the Wolfson and Alon Foundations to NB-T.
PY - 2002/5/21
Y1 - 2002/5/21
N2 - The molecular mechanism controlling the variable activity of the malignancy marker adenosine deaminase (ADA) is enigmatic. ADA activity was found to be modulated by the membrane-bound adenosine deaminase complexing protein (CP=DPPIV=CD26). The role of lipid-protein interactions in this modulation was sought. While direct solubilization of ADA in vesicles resulted in loss of ADA activity, the binding of ADA to CP reconstituted in vesicles restored the specific activity. The activity of ADA, free or bound to CP in solution, resulted in continuous linear Arrhenius plots. However, ADA bound to reconstituted CP exhibited two breaks associated with ∼30% increased activity, at 25 and 13 °C, yielding three lines with similar apparent activation energies (Ea). Continuum solvent model calculations of the free energy of transfer of the transmembrane helix of CP from the aqueous phase into membranes of various widths show that the most favorable orientations of the helix above and below the main phase transition may be different. We suggest that the 20% change in the thickness of the bilayer below and above the main phase transition may modify the orientation of CP in the membrane, thereby affecting substrate accessibility of ADA. This could account for ADA's reduced activity associated with increased membrane fluidity in transformed vs. normal fibroblasts.
AB - The molecular mechanism controlling the variable activity of the malignancy marker adenosine deaminase (ADA) is enigmatic. ADA activity was found to be modulated by the membrane-bound adenosine deaminase complexing protein (CP=DPPIV=CD26). The role of lipid-protein interactions in this modulation was sought. While direct solubilization of ADA in vesicles resulted in loss of ADA activity, the binding of ADA to CP reconstituted in vesicles restored the specific activity. The activity of ADA, free or bound to CP in solution, resulted in continuous linear Arrhenius plots. However, ADA bound to reconstituted CP exhibited two breaks associated with ∼30% increased activity, at 25 and 13 °C, yielding three lines with similar apparent activation energies (Ea). Continuum solvent model calculations of the free energy of transfer of the transmembrane helix of CP from the aqueous phase into membranes of various widths show that the most favorable orientations of the helix above and below the main phase transition may be different. We suggest that the 20% change in the thickness of the bilayer below and above the main phase transition may modify the orientation of CP in the membrane, thereby affecting substrate accessibility of ADA. This could account for ADA's reduced activity associated with increased membrane fluidity in transformed vs. normal fibroblasts.
KW - ADCP=DPPIV=CD26
KW - Arrhenius plot
KW - Bilayer width
KW - Hydrophobic mismatch
KW - Membrane dynamics
KW - Reconstitution in liposomes
UR - http://www.scopus.com/inward/record.url?scp=0037150272&partnerID=8YFLogxK
U2 - 10.1016/S0925-4439(02)00050-9
DO - 10.1016/S0925-4439(02)00050-9
M3 - Article
AN - SCOPUS:0037150272
SN - 0925-4439
VL - 1587
SP - 21
EP - 30
JO - Biochimica et Biophysica Acta - Molecular Basis of Disease
JF - Biochimica et Biophysica Acta - Molecular Basis of Disease
IS - 1
ER -