Identification of tumor-associated antigens from medullary breast carcinoma by a modified SEREX approach.

Medullary breast carcinoma (MBC) is a relatively rare malignancy with heavy lymphocytic infiltration that despite cytologically anaplastic features and high mitotic index has more favorable prognosis than other types of breast cancer. Lymphocytic infiltration of tumors reflects ongoing immune response against tumor antigens which could represent a great interest as potential targets for cancer immunotherapy. The search for MBC antigens by SEREX methodology has not been successful due to a very high titer of false positive clones, representing immunoglobulin genes. Here, we describe a novel approach for generating cDNA expression libraries from MBC tumor samples which are depleted of IgG cDNA clones and, therefore, are suitable for the identification of novel tumor-associated antigens (TAA) by SEREX approach. Modified methodology allowed us to isolate a panel of known and novel TAA which are currently under further investigation.

Development of monoclonal antibodies specific for the human sodium-dependent phosphate co-transporter NaPi2b.

Homeostasis of inorganic phosphate in the human body is maintained by regulated absorption, metabolism, and excretion. Sodium-dependent phosphate transporters (NaPi) mediate the transport of inorganic phosphate (P(i)) in cells in response to dietary phosphate consumption, hormones, and growth factors. NaPi2b is a member of the sodium-dependent phosphate transporter family, with a distinct pattern of expression and regulation. Signaling pathways activated by mitogens, glucocorticoids, and metabolic factors have been implicated in regulating P(i) transport via NaPi2b. Inactivation of NaPi2b function by mutations has been linked to human pathologies, such as pulmonary alveolar microlithiasis. In this study, we describe the generation and characterization of monoclonal antibodies against human NaPi2b. The monoclonal antibodies were shown to recognize specifically transiently overexpressed and endogenous NaPi2b in commonly used immunoassays, including Western blotting, immunoprecipitation, and immunohistochemistry. These properties make them particularly valuable reagents for elucidating NaPi2b function in health and disease.