Summary: This ADC product is comprised of an anti-TNFRSF8 monoclonal antibody (hCA10) conjugated via a α-glucuronide linker to a MMAF. The MMAF is targeted to certain cancers by immunerecognition and delivered into cancer cells via receptor mediated endocytosis. Within the cell, MMAF binds to tubulins, interrupts microtubule dynamics, and subsequently, induces cell death. β-Glucuronide linkers belong to Enzymatically cleavable linkers, which have expected stability and provide facile release of the active drug. The cleavage of the β-glucuronide glycosidic bond relies on lysosomal enzyme β-glucuronidase, and this enzyme is abundantly present within lysosomes and is overexpressed in some tumor types, while the enzyme activity outside cells is low. Derived from Auristatin,are water-soluble dolastatin analogs of dolastatin 10. Dolastatin 10 belongs to dolastatin family and it can powerfully bind to tubulin, thus inhibiting polymerization mediated through the binding to the vinca alka
Description: This ADC product is comprised of an anti-TNFRSF8 monoclonal antibody (hCA10) conjugated via a α-glucuronide linker to a MMAF. The MMAF is targeted to certain cancers by immunerecognition and delivered into cancer cells via receptor mediated endocytosis. Within the cell, MMAF binds to tubulins, interrupts microtubule dynamics, and subsequently, induces cell death. β-Glucuronide linkers belong to Enzymatically cleavable linkers, which have expected stability and provide facile release of the active drug. The cleavage of the β-glucuronide glycosidic bond relies on lysosomal enzyme β-glucuronidase, and this enzyme is abundantly present within lysosomes and is overexpressed in some tumor types, while the enzyme activity outside cells is low. Derived from Auristatin,are water-soluble dolastatin analogs of dolastatin 10. Dolastatin 10 belongs to dolastatin family and it can powerfully bind to tubulin, thus inhibiting polymerization mediated through the binding to the vinca alkaloid binding domain, and causes cell to accumulate in metaphase arrest.