The comparison of biophysical properties of DB-67 and its ester DB-67-4ABTFA determined by fluorescence spectroscopy methods.

Abstract Fluorescence spectroscopy methods are applied to the study of camptothecin analogue DB-67 and its ester DB-67-4ABTFA (trifluoroacetic acid salt of 20( S )-aminobutyrate substituted DB-67). Camptothecin and many of its analogues exhibit anticancer properties. They are fluorescent compounds, so using the method of fluorescence anisotropy measurements and fluorescence spectra recording many biophysical properties can be determined including affinity to proteins and membranes. One can also observe the process of conversion of the ester into DB-67. Active lactone form of camptothecin in fluids at pH 7.4 hydrolyses and converts into inactive carboxylate. Process of camptothecin deactivation is accelerated in plasma and after about 2 h the total conversion to carboxylate form occurs. It is caused by fast and irreversible binding of carboxylate form to the human serum albumin (HSA). Camptothecin carboxylate bound to HSA does not lactonise. On the other hand, camptothecin lactone binding to membranes is reversible, but as long as lactone form bound to membranes does not hydrolyse. Knowledge of binding properties to proteins and membranes permits to select among many camptothecin analogues the ones exhibiting desirable behavior in physiological conditions: high affinity of lactone form to membranes and low affinity of carboxylate form to albumin. The studied DB-67 and DB-67-4ABTFA fulfill these requirements.