Most purported antibodies to the human granulocyte colony-stimulating factor receptor are not specific.

Objective: Antibodies to human granulocyte colony-stimulating factor receptor (HuG-CSFR) are widely available and have been used in numerous studies to evaluate the expression of this protein on normal and malignant cells of hematopoietic and nonhematopoietic origin. Spurred by recent studies that demonstrated that two commonly used antibodies against the erythropoietin and thrombopoietin receptors can in fact bind to completely unrelated and more broadly expressed proteins, we screened 27 commercially available monoclonal and polyclonal antibodies with claimed specificity to HuG-CSFR to determine if they are specific to this receptor.

Materials And Methods: Antibodies were evaluated by Western blotting, flow cytometry, and immunohistochemistry using 293T cells engineered to overexpress HuG-CSFR protein, immortalized human hematopoietic cell lines expressing endogenous G-CSFR, and purified human neutrophils.

Comparison of epoetin alfa and darbepoetin alfa biological activity under different administration schedules in normal mice.

The unit of erythropoietic activity has long been the standard by which erythropoietic agents are judged, but the development of long-acting agents such as darbepoetin alfa has highlighted the shortcomings of this approach. To this point, we compared the in vivo activity of Epoetin alfa and darbepoetin alfa per microgram of protein core. Using the established mass-to-unit conversion for Epoetin alfa (1 microg congruent with 200 U), we then calculated darbepoetin alfa activity in units.

Darbepoietin alfa potentiates the efficacy of radiation therapy in mice with corrected or uncorrected anemia.

Darbepoietin alfa (DA) is a long-acting analogue of erythropoietin that has reduced receptor affinity and enhanced biological activity. Experiments were done to test the hypothesis that correction of anemia in tumor-bearing mice by DA would increase tumor oxygenation and potentiate radiation-induced tumor cell killing. A SCC VII tumor model was used to study tumor responses to fractionated radiation therapy in mice with anemia induced by total body irradiation.

Kinetics of haematopoietic recovery after dose-intensive chemo/radiotherapy in mice: optimized erythroid support with darbepoetin alpha.

Despite its frequency and impact on clinical outcomes, anaemia in cancer patients remains poorly understood and suboptimally treated. The definition of optimum treatment schedules with erythropoietic agents requires a suitable model of chemotherapy-induced progressive anaemia. This study investigated novel strategies such as once-per-chemotherapy-cycle dosing, synchronization between erythroid supportive care and chemotherapy, and definition of the optimum timing of erythroid support.