Rationale for targeted drug delivery

Aloe polymannose enhances anti-coxsackievirus antibody titres in mice

Aloe polymannose (AP), a high mannose biological response modifier (BRM) purified from the Aloe barbadensis Miller plant, was tested for activity in enhancing antibody titres against coxsackievirus B3 (CVB3) and CVB3-induced myocarditis in murine models of the disease. Inoculation of mice with AP over a range of three nontoxic doses and in varying schedules did not reduce virus titres in heart tissues or ameliorate virus-induced cardiopathological alterations during acute disease. However, this BRM was found to significantly enhance titres of anti-CVB3 antibodies produced during acute infection of three strains of mice with CVB3. Simultaneous intraperitoneal inoculation of AP at a dose of 0.5 mg/kg body weight per mouse with purified CVB3 significantly increased ELISA titres of anti-CVB3 antibodies and the proportion of mice with these titres, compared with similar parameters in mice inoculated only with CVB3. The data conclusively show that AP can immunopotentiate antibody production against capsid protein epitopes of a nonenveloped picornavirus and suggest this BRM (AP) might be of benefit in enhancing antibody titres against other enteroviruses during a natural infection and poliovirus vaccine strains.

In vivo and in vitro antitumor activity of mitomycin C conjugates at 7-N position through a linker containing thiocarbamate bond with CD10 monoclonal antibody

Through a linker containing thiocarbomate bound to the 7-N position of mitomycin C (MMC), conjugates with a monoclonal antibody to CD10 (NL-1) were prepared, and their antitumor activities were examined. All five conjugates, except one, showed in vitro cytotoxicity to two CD10+ lymphoid cell lines superior to MMC. The conjugate displaying the highest cytotoxicity was selected and further tested against three CD10+ and two CD10- lymphoid cell lines in vitro. The conjugate with NL-1 antibody demonstrated higher cytotoxic activity against CD10+ tumor cells than the control conjugate with normal immunoglobulin, while there was no significant difference, when tested against CD10- tumors. The cytotoxic activity of the NL-1 conjugate to CD10+ tumors was significantly blocked by NL-1 antibody. In vivo antitumor activity of the NL-1 conjugate was then tested against a CD10+ tumor transplanted to nude mice, and side effects were recorded. The NL-1 conjugate (4 mg/kg) showed an in vivo antitumor effect similar to MMC (2 mg/kg), which is at nearly maximal tolerable dose; the latter induced decreases in numbers of leukocytes and platelets, while the former did not, suggesting less side effect by the NL-1 conjugate. Since MMC demonstrates a broad spectrum of antitumor activity, the conjugate, as such, may be applicable for the treatment of cancer patients.

Clinical experience of targeted therapy

Drug targeting (i.e. administration of a drug-carrier conjugate which delivers active drug selectively to a particular tissue) has recently evolved into a new subdiscipline of experimental pharmacy/pharmacology. However, clinical experience with targeted therapy is very limited to date. This review summarizes human studies of targeted therapy. Indications for which drug targeting has been attempted include neoplastic disorders, fungal infections, enzyme replacement, hematologic and immune disorders, and iron storage disease. To date, no single drug targeting system is recommendable for routine clinical use, but present results justify further clinical evaluation in a number of situations.