Mice primed with swainsonine are protected against doxorubicin-induced lethality.

The anthracycline, doxorubicin is a potent cancer chemotherapeutic agent whose therapeutic usefulness is limited by both a dose- and time-dependent cardiomyopathy. We tested the ability of an immunomodulatory alkaloid swainsonine (8alphabeta-indolizidine-1alpha,2alpha,8beta-triol) to protect C57BL/6 mice against lethality within 70 days following a single bolus intraperitoneal injection of LD50/14 doxorubicin. Also, we sought the potential mechanisms responsible for this protection. This extended 70-day study in mice, which may be considered equivalent to a period of 4 to 5 years in humans, has clinical implication for delayed cardiotoxic sequela of therapy with high dose doxorubicin. Mice were pretreated with swainsonine or its diluent buffer, phosphate buffered saline for ten consecutive days prior to a single bolus intraperitoneal injection of a LD50/14 doxorubicin. We have previously defined this swainsonine pretreatment regimen as one of the two optimal conditions for swainsonine rescue of mice from death induced by LD50/14 doxorubicin. The survival and well being of groups of mice pretreated with swainsonine and phosphate buffered saline prior to LD50/14 doxorubicin, sham-treated and untreated were monitored daily for up to 70 days. The bone marrow cellularity of the mice were quantified, and in vitro progenitor cell assays were used to determine the effects of these treatment regimens on bone marrow competence following doxorubicin treatment. The effects of these treatment regimens on heart morphology and hematologic toxicities were also determined. This swainsonine pretreatment regimen significantly abrogated doxorubicin-induced lethality and prolonged survival of mice by facilitating restoration of bone marrow cellularity, accelerating restoration of blood hematocrit and total leukocyte levels, enhancing the proliferation and differentiation of bone marrow pluripotent stem cells along the different paths to progenitor lineages, and preserving the heart morphology. This study strongly suggests a potential role for swainsonine with doxorubicin in cancer chemotherapy.