Emerging from stealth mode, new immuno-oncology company Dotbio Pte. Ltd. closed an oversubscribed $5.6 million pre-series A round to accelerate development of its multifunctional and intracellular antibody therapies.

Oncusp Therapeutics Inc. has received IND clearance from the FDA to begin clinical trials with CUSP-06, a cadherin-6 (CDH6)-targeting antibody-drug conjugate designed for the treatment of multiple solid tumors. CDH6 is overexpressed in cancers including ovarian, renal, uterine, thyroid, lung, and cholangiocarcinoma. A phase I trial will pave the way for expansion in patients with platinum-refractory/resistant ovarian cancer and other advanced solid tumors.

Approximately 100 years ago, Otto Warburg discovered that glucose consumption is elevated over ten-fold in cancer cells compared to normal...

Cytomed Therapeutics Ltd. has signed a memorandum of understanding (MOU) with Hangzhou CNK Therapeutics Co. Ltd. allowing Cytomed to utilize CNK's Piggybac technology to permanently graft the chimeric antigen receptor (CAR) gene into its γδ T cells via a non-viral gene editing method.

Ibio Inc. has announced promising in vivo data for three immuno-oncology candidates, anti-EGFRvIII, CCR8 and a bispecific TROP-2 x CD3, advancing these programs to clinical candidate selection stage.

Hebecell Corp. and Logomix Inc. have established a strategic partnership to research and develop gene-edited natural killer (NK) cells and discover genetic modifications that can create next-generation designer NK cells. Under the agreement, Logomix provides genome editing capabilities to Hebecell for development of next-generation designer Protonk cells.

Zumutor Biologics Inc. has received FDA clearance of its IND application for ZM-008 to enter a first-in-human phase I study for the treatment of multiple solid cancers. A phase I study is anticipated to begin in the fourth quarter, and will include evaluation of ZM-008 followed by pembrolizumab.

Georgiamune Inc. announced that the FDA cleared its IND application for GIM-122, a first-in-class dual-functioning monoclonal antibody designed to target a highly novel mechanism to overcome immunotherapy resistance.

CAR T-cell immunotherapy is designed with different targets depending on the receptors they will bind to. CARs can also contain different tools, like the concept of a Swiss army knife, with several utensils for different tasks. The goal is to make them more effective and durable. During the second session of the Spotlight on Immuno-Oncology conference, “Novel CAR designs and approaches,” Robbie Majzner, of Stanford University, described expanding the main components of CAR T cells to acquire new functions and act on different cell pathways.