Hammer Stock Blog

Seattle Genetics (SGEN) recently published clinical data from a phase I which evaluated SGN-33 for the treatment of elderly AML (Acute Myelogenous Leukemia) patients. AML is a common type of blood cancer, with around 13,000 new cases and 9000 deaths expected to occur during 2007 in the US alone. The prognosis elderly AML patients have can be attributed to their inability to tolerate aggressive chemotherapy or stem cell transplant. Moreover, AML among elderly patients is inherently more resistant to standard chemotherapy due to several factors. Therefore, there is a unique challenge in developing better treatments for elderly AML patients, because these treatments must be very safe in addition to being effective. Antibodies, as well as other targeted therapies are regarded as excellent candidates, as they have an excellent safety profile and can be usually co-administered with other treatments. The market opportunity for such treatments is substantial, due to the high incidence of AML among elderly patients, so naturally there are multiple treatments currently being evaluated. The majority of these treatments are chemo agents but there are several targeted therapies, the most promising of which is SGN-33.

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A lot of clinical data was published at the American Society of Hematology (ASH) meeting, some of it quite impressive. Naturally, established drugs such as Millennium Pharmaceuticals‘ (MLNM) Velcade, Genentech’s (DNA) Rituxan and Celgene’s (CELG) Revlimid got most of the attention. In my opinion, the real star of the conference is MT-103 which is being co-developed by Micromet (MITI) and MedImmune, the biologics division of AstraZeneca (AZN). I won’t go too deep into describing the mechanism of action and the platform based on which MT-103 is built (I intend to do that in a review I hope to publish next week). However, the clinical data presented by Micromet is so impressive and so groundbreaking from several perspectives, that it must not be ignored.

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CD70 program

CD70 is a receptor expressed on many types of blood cancers as well as the majority of renal cancer cases. The expression profile of this target is highly restricted to cancer cells, which, combined with its ability to internalize antibodies, makes it a desirable target for ADCs. Seattle Genetics is evaluating a naked antibody as well as an ADC that target CD70, both candidates are based on the same antibody, which was licensed from CLB-Research and Development. The naked antibody, SGN-70, is evaluated for certain blood cancers and is expected to enter phase I during 2008. Another possible use for SGN-70 is for autoimmune diseases, as it is expressed on white blood cells that are involved in the disease, but not on “resting” cells.

SGN-75 is an ADC based on SGN-70, which is currently evaluated pre-clinically for Renal cell carcinoma. This disease, although not as common as prostate and lung cancers, represents a large market opportunity with over 43,000 new cases and almost 13,000 deaths expected in 2007 in the US alone. Although surgical resection of the kidney has high chances to prevent the disease from spreading, nearly one third of patients are diagnosed at advanced stage, where the cancer has spread to additional organs. In addition, more than 30% of patients who undergo resection will eventually develop metastatic disease, for which very few therapeutic options exist. SGN-75 is expected to enter the clinic only in 2009.

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The partnership with MedImmune, which dates back to 2005, is probably Seattle Genetics’ second most important partnership. On the scientific side, now that MedImmune has been merged with Cambridge Antibody Technology [CAT] to form AstraZeneca’s (AZN) biologics division, Seattle Genetics has a real antibody powerhouse on its side. On the financial side, Seattle Genetics could benefit from another pharma giant on its partner list, equipped with the 8th largest R&D budget in the industry and consequently the ability to support multiple clinical programs simultaneously. Looking at Immunogen’s partnership with Sanofi-Aventis, which has thus far led to 3 clinical programs, is making us hope that AstraZeneca will be to Seattle Genetics, what Sanofi is to Immunogen.

The cooperation with MedImmune originally revolved around one target – EphA2. This intriguing target is highly expressed in numerous solid cancers including breast, prostate and colorectal, which makes the potential opportunity immense. In addition, there is a growing body of scientific evidence that expression of EphA2 is associated with aggressiveness and poor survival, which makes its targeting very reasonable in advanced stages of the disease. The specific targeting of EphA2 looks particularly promising since MedImmune’s scientists discovered that there are several regions within EphA2 which become exposed and consequently accessible for antibodies only on cancer cells.

MedImmune views Epha2 as a very important target. In fact, it has such high hopes for it, that there it is currently evaluating multiple approaches to targeting this promising antigen. One of these approaches is Micromet’s (MITI) Bite (stands for: Bi-Specific T cell Engager) platform, which is being co-developed with Medimmune for several targets, one of which is EphA2. The Bite Platform, a very interesting technology (that deserves an article of its own being so different from other antibody-based platforms) consists of two small antibodies that link between a tumor and specific immune cells in order to manipulate them to attack the tumor. It has demonstrated very impressive potency in mice, and even more impressive results among heavily pre-treated NHL patients, mainly due to the very low doses that showed a clinical effect. The Bite platform hasn’t been evaluated in solid tumors yet, but clinical trials are expected to be announced in the future, one of them is for a Bite agent that targets Epha2. Due to its unique characteristics that present both advantages and disadvantages, it is very hard to predict Bite’s efficacy in these settings. Although some consider Bite an immunotoxin, it differs from immunoconjugates in that it does not contain any drug or toxin payload, so it is reasonable to expect that MedImmune will explore it in parallel to Seattle Genetics’ platform. Although Bite is not necessarily a direct competitor, I bet the folks at Seattle Genetics are following that program closely. Nevertheless, MedImmune seems pretty happy with Seattle Genetics’ platforms, as it has recently licensed Seattle Genetics’ ADC technology for a second undisclosed target.

Author is long SGEN