A first-in-human phase I study of MORAb-004, a monoclonal antibody to endosialin in patients with advanced solid tumors.

Purpose: Endosialin (TEM-1, CD248) is a protein expressed on the surface of activated mesenchymal cells, including certain subsets of tumors. Preclinical models suppressing endosialin function have shown antitumor activity. A humanized monoclonal antibody, MORAb-004, was engineered to target endosialin and is the first agent in clinical development for this mesenchymal cell target.

Preclinical evaluation of MORAb-009, a chimeric antibody targeting tumor-associated mesothelin.

Novel therapeutic agents that are safe and effective are needed for the treatment of pancreatic, ovarian, lung adenocarcinomas and mesotheliomas. Mesothelin is a glycosyl-phosphatidyl inositol (GPI)-linked membrane protein of 40 kDa over-expressed in all pancreatic adenocarcinoma and mesothelioma, in >70% of ovarian adenocarcinoma, and in non-small cell lung and colorectal cancers. The biological functions of mesothelin are not known, although it appears to be involved in cell adhesion via its interaction with MUC16.

Developing novel biopharmaceutical products through morphogenics.

The genomics era has provided valuable information on the content of the human genome, including the structure and chromosomal location of many disease-associated loci. This wealth of information has resulted in the identification of novel targets that are amenable to biopharmaceutical product development, leading to an overall enhanced pace of therapeutic development for a broad array of disease indications. Historically, small chemical entities have been designed as therapies to gene products that are encoded by intracellular proteins, enzymes and channels.

Interaction of endosialin/TEM1 with extracellular matrix proteins mediates cell adhesion and migration.

Endosialin/TEM1 was originally discovered as a human embryonic fibroblast-specific antigen and was later found to be differentially expressed in tumor stroma and endothelium. Endosialin/TEM1 overexpression has been observed in many cancers of various tissue origin, including colon, breast, pancreatic, and lung. The knockout (KO) mouse model showed the absence of endosialin/TEM1 expression reduced growth, invasion, and metastasis of human tumor xenografts.

Preclinical evaluation of MORAb-003, a humanized monoclonal antibody antagonizing folate receptor-alpha.

The highly restricted distribution of human folate receptor-alpha (FRalpha) in normal tissues and its high expression in some tumors, along with its putative role in tumor cell transformation, make this antigen a suitable target for antigen-specific, monoclonal antibody-based immunotherapy for oncology indications. We have developed a therapeutic humanized monoclonal antibody with high affinity for FRalpha, named MORAb-003, which was derived from the optimization of the LK26 antibody using a whole cell genetic evolution platform. Here we show that MORAb-003 possesses novel, growth-inhibitory functions on cells overexpressing FRalpha.

Human antibodies for immunotherapy development generated via a human B cell hybridoma technology.

Current strategies for the production of therapeutic mAbs include the use of mammalian cell systems to recombinantly produce Abs derived from mice bearing human Ig transgenes, humanization of rodent Abs, or phage libraries. Generation of hybridomas secreting human mAbs has been previously reported; however, this approach has not been fully exploited for immunotherapy development. We previously reported the use of transient regulation of cellular DNA mismatch repair processes to enhance traits (e.

Morphogenics as a tool for target discovery and drug development.

Mutations in DNA mismatch repair (MMR) genes lead to genetically hypermutable cells. Germline mutations in MMR genes in man have been linked to the genetic predisposition to hereditary nonpolyposis colon cancer and a number of other inherited and sporadic malignancies. The ability to modulate the MMR process (referred to as morphogenics) in model systems offers a powerful tool for generating functional diversity in cells and multicellular organisms via the perpetual genomewide accumulation of randomized point and slippage mutation(s).