On March 4, 2015 Coronado Biosciences reported the formation of a new subsidiary company, Checkpoint Therapeutics, Inc., to develop a portfolio of fully human immuno-oncology targeted antibodies generated in the laboratory of Dr. Wayne Marasco, MD, PhD, a Professor in the Department of Cancer Immunology and AIDS at Dana-Farber Cancer Institute (Dana-Farber). Dr. Marasco will chair the Scientific Advisory Board of the Company (Press release, Coronado Biosciences, MAR 4, 2015, View Source;FID=1001195572 [SID:1234502186]). Under the terms of the agreement, Checkpoint will pay Dana-Farber an up-front licensing fee in addition to development and sales-based milestone payments and royalties on net sales.

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The portfolio of antibodies licensed from Dana-Farber includes antibodies targeting PD-L1, GITR and CAIX. Checkpoint plans to develop these novel immuno-oncology and checkpoint inhibitor antibodies on their own and in combination with each other, as data suggests that combinations of these targets can work synergistically together. Clinical trials are expected to start in the second half of next year.

In connection with the license agreement with Dana-Farber, Checkpoint Therapeutics entered into a collaboration agreement with TG Therapeutics, Inc. (Nasdaq:TGTX) to develop and commercialize the Anti-PD-L1 and Anti-GITR antibody research programs in the field of hematological malignancies. Checkpoint retains the right to develop and commercialize these antibodies in solid tumors. Both programs are currently in pre-clinical development. Under the terms of the agreement, TG Therapeutics will pay Checkpoint an up-front licensing fee as well as make development and sales-based milestone payments and will pay a tiered single digit royalty on net sales.

Dr. Lindsay A. Rosenwald, Chairman and CEO of Coronado Biosciences stated, "We are absolutely delighted to partner with one of the pioneers in this field, Dr. Wayne Marasco." Dr. Rosenwald continued, "Immuno-oncology is one of the most exciting areas in cancer drug development. Drugs that inhibit key immune checkpoint proteins have the potential to unlock the immune system to kill cancer cells. Results for PD-1 inhibitors in melanoma and lung cancer have been impressive but these are early innings of a long game to optimize the right combination of checkpoint inhibitors and other targeted agents to provide lasting cures to all patients. The early work will pave the way for novel combinations, which is where Checkpoint plans to play a pivotal role. The three antibodies licensed today may work synergistically together as well as with other agents. To accelerate development in one area, hematological malignancies, Checkpoint partnered with TG Therapeutics. With TG’s impressive early results with its drug candidates, expertise and relationships in hematological malignancies, we believe we can accelerate development of these important antibodies in this area. "

About anti-PD-L1 and anti-GITR
Anti-PD-L1 antibodies target programmed cell death ligand 1 (PD-L1). Signals from PD-L1 on tumor cells and in tumor microenvironment help those tumors avoid immune attack and elimination by preventing activation of tumor specific effector T-cells. Anti-PD-L1 antibodies are designed to block that signal permitting effector T-cells to attack the cancer. Anti-GITR antibodies target glucocorticoid-induced tumor necrosis factor receptor related protein (GITR), which is regularly expressed on the surface of regulatory T-cells (Tregs) and is expressed on the surface of effector T-cells after their activation. Modulation of GITR with agonistic antibodies has been shown to amplify the antitumor immune responses in animal models via multiple mechanisms. Anti-GITR antibodies are designed to activate the GITR receptor thereby increasing the proliferation and function of effector T cells. At the same time, ligation of GITR on surface of Tregs could abrogate suppressive function of these cells on tumor specific effector T-cells thus further augmenting T-cell immune response. While targeting PD-1/PD-L1 axes alone has already demonstrated impressive anticancer efficacy and durable responses in humans, its efficacy appears to be limited to certain patients. It is believed the effects of anti-PD-L1 intervention can be enhanced by utilizing a co-stimulatory antibody, like one targeting GITR, that can turn on tumor specific effector T-cells. Combining immunotherapies like anti-PD-L1 that counters the tumor’s immune-evading defense system with an anti-GITR that activates effector T-cells, represents a rational approach to use the body’s own immune system to help fight cancer. Pre-clinical research on the combination of the two approaches has yielded very encouraging results to support synergistic potential of this combination. Anti-CAIX antibodies target carbonic anhydrase IX (CAIX), which is over-expressed on the surface of renal cell carcinoma (RCC) and hypoxic solid tumors making it a promising therapeutic target. RCC is a significant public health issue with over 60,000 new cases and over 13,000 deaths predicted in US last year. As a number of RCC cases have already been shown to be sensitive to anti-tumor immune response generated as a result of PD-1/PD-L pathway inhibition, it makes it reasonable to attempt improving the response rate in this malignancy further by additional targeting of immune responses to this tumor with other immune stimulating agents such as anti-CAIX and anti-GITR antibodies.