Abstract: The invention provides an anti-CEA antibody for use in detecting CEA, treating disorders associated with CEA expression, diagnosing cancers characterized by aberrant CEA expression, and predicting effectiveness of cancer drug therapies.

Abstract: The invention provides an anti-CEA antibody for use in detecting CEA, treating disorders associated with CEA expression, diagnosing cancers characterized by aberrant CEA expression, and predicting effectiveness of cancer drug therapies.

Abstract: The present invention relates to isolated monoclonal anti-EGFR antibodies, and to the use of such antibodies and antibody fragments to detect EGFR, particularly those expressed by cancer cells. The antibodies are useful in diagnostic as well as therapeutic indications. Methods, devices and kits for the immunodetection and immunotherapy of cells expressing EGFR is also encompassed.

Abstract: The invention relates to monoclonal antibodies (mAbs) that bind to serotransferrin (TF), hybridoma lines that secrete these antibodies or fragments thereof, and the use of these antibodies to detect TF antigens. Methods and uses for detecting prostate cancer, as well as methods and uses for distinguishing early and late stage prostate cancer are encompassed.

Abstract: Some embodiments are directed to monoclonal antibodies (mAbs) that bind to transferrin (TF) and transferrin receptor 1 (TFRC), hybridoma lines that secrete these antibodies, and the use of these antibodies to detect TF and TFRC antigens. Some other embodiments are directed to methods and uses for detecting cancer and iron deficiency anemia, as well as methods and uses for distinguishing between early and late stage prostate cancer.

Abstract: Monoclonal antibodies (MoAbs or mAbs) specific for ALPHA-ACTININ-4 antigens, hybridoma lines that secrete these ALPHA-ACTININ-4 mAbs, and the use of such mAbs to detect ALPHA-ACTININ-4 antigens, particularly those expressed by cancer cells are disclosed. Chimeric and humanized antibodies based upon these anti-ALPHA-ACTININ-4 mAbs, processes for producing monoclonal, chimeric, and humanized antibodies using recombinant DNA technology, and their therapeutic uses, particularly in the treatment of cancer are also disclosed. Methods and kits for the immunodetection and immunotherapy of cells for samples which express ALPHA-ACTININ-4 antigens are additionally disclosed.

Abstract: The disclosure relates to anti-glial maturation factor beta (“GMF-B”) monoclonal antibodies (mAbs) and fragments thereof, as well as hybridoma lines that secrete antibodies or fragments. Therapeutic and diagnostic uses of such antibodies, including treatment and detection of cancer and dementia, and methods and kits for detecting cells or samples expressing GMF-B, including soluble GMF-B, are also encompassed.

Abstract: The present invention relates to isolated monoclonal anti-EGFR antibodies, and to the use of such antibodies and antibody fragments to detect EGFR, particularly those expressed by cancer cells. The antibodies are useful in diagnostic as well as therapeutic indications. Methods, devices and kits for the immunodetection and immunotherapy of cells expressing EGFR is also encompassed.

Abstract: The present invention provides and includes monoclonal antibodies (mAbs) preferentially selective for HER2 antigens, hybridoma lines that secrete these HER2 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect HER2 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble or secreted form of HER2. The present invention also includes an antibody or antibody fragment that is capable of reducing the activity of HER2 in at least one form, including a soluble form or a secreted form. The present invention further includes chimeric antibodies, processes for producing monoclonal and chimeric antibodies or monoclonal or chimeric antibodies, and their therapeutic uses, particularly in the detection of cancer most preferentially in human breast, stomach, and colon.

Abstract: The present invention provides and includes monoclonal antibodies specific or preferentially selective for PCBP-1 antigens, hybridoma lines that secrete these PCBP-1 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect PCBP-1 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble form of PCBP-1. The present invention further includes chimeric and humanized antibodies, processes for producing monoclonal, chimeric, and humanized antibodies using recombinant DNA technology, and their therapeutic uses, particularly in the treatment of cancer. The present invention further includes methods and kits for the immunodetection and immunotherapy of cells for samples which express PCBP-1 antigens.

Abstract: The present invention provides and includes monoclonal antibodies (mAbs) preferentially selective for HER2 antigens, hybridoma lines that secrete these HER2 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect HER2 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble or secreted form of HER2. The present invention also includes an antibody or antibody fragment that is capable of reducing the activity of HER2 in at least one form, including a soluble form or a secreted form. The present invention further includes chimeric antibodies, processes for producing monoclonal and chimeric antibodies or monoclonal or chimeric antibodies, and their therapeutic uses, particularly in the detection of cancer most preferentially in human breast, stomach, and colon.

Abstract: The present invention provides and includes monoclonal antibodies (mAbs) preferentially selective for HER2 antigens, hybridoma lines that secrete these HER2 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect HER2 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble or secreted form of HER2. The present invention also includes an antibody or antibody fragment that is capable of reducing the activity of HER2 in at least one form, including a soluble form or a secreted form. The present invention further includes chimeric antibodies, processes for producing monoclonal and chimeric antibodies or monoclonal or chimeric antibodies, and their therapeutic uses, particularly in the detection of cancer most preferentially in human breast, stomach, and colon.

Abstract: The present invention provides and includes monoclonal antibodies (MoAbs or mAbs) specific or preferentially selective for PCBP-1 antigens, hybridoma lines that secrete these PCBP-1 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect PCBP-1 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble form of PCBP-1. The present invention further includes chimeric and humanized antibodies, processes for producing monoclonal, chimeric, and humanized antibodies using recombinant DNA technology, and their therapeutic uses, particularly in the treatment or diagnosis of cancer progression. The present invention further includes methods and kits for the immunodetection and immunotherapy of cells for samples which express PCBP-1 antigens.

Abstract: In one aspect, the present disclosure provides a method of predicting disease progression comprising: (a) obtaining a sample of breast tissue that is estrogen receptor negative, progesterone receptor negative and does not over-express human epidermal growth factor 2 receptor protein; and (b) determining the expression of glia maturation factor beta, wherein expression of glia maturation factor beta is indicative of lymph node metastatis. In another aspect, the present disclosure provides a method of predicting disease progression comprising: (a) obtaining a sample of breast tissue that is estrogen receptor negative, progesterone receptor negative and does not over-express human epidermal growth factor 2 receptor protein; and (b) determining the expression of glia maturation factor beta, wherein expression of glia maturation factor beta is indicative of an untreated or treated prognosis that is reduced compared to an absence of the expression.

Abstract: Monoclonal antibodies (MoAbs or mAbs) specific for ALPHA-ACTININ-4 antigens, hybridoma lines that secrete these ALPHA-ACTININ-4 mAbs, and the use of such mAbs to detect ALPHA-ACTININ-4 antigens, particularly those expressed by cancer cells are disclosed. Chimeric and humanized antibodies based upon these anti-ALPHA-ACTININ-4 mAbs, processes for producing monoclonal, chimeric, and humanized antibodies using recombinant DNA technology, and their therapeutic uses, particularly in the treatment of cancer are also disclosed. Methods and kits for the immunodetection and immunotherapy of cells for samples which express ALPHA-ACTININ-4 antigens are additionally disclosed.

Abstract: The disclosure relates to anti-glial maturation factor beta (“GMF-B”) monoclonal antibodies (mAbs) and fragments thereof, as well as hybridoma lines that secrete antibodies or fragments. Therapeutic and diagnostic uses of such antibodies, including treatment and detection of cancer and dementia, and methods and kits for detecting cells or samples expressing GMF-B, including soluble GMF-B, are also encompassed.

Abstract: The present invention provides and includes monoclonal antibodies (MoAbs or mAbs) specific or preferentially selective for PCBP-1 antigens, hybridoma lines that secrete these PCBP-1 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect PCBP-1 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble form of PCBP-1. The present invention further includes chimeric and humanized antibodies, processes for producing monoclonal, chimeric, and humanized antibodies using recombinant DNA technology, and their therapeutic uses, particularly in the treatment of cancer. The present invention further includes methods and kits for the immunodetection and immunotherapy of cells for samples which express PCBP-1 antigens.

Abstract: The present invention provides and includes monoclonal antibodies (MoAbs or mAbs) specific or preferentially selective for PCBP-1 antigens, hybridoma lines that secrete these PCBP-1 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect PCBP-1 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble form of PCBP-1. The present invention further includes chimeric and humanized antibodies, processes for producing monoclonal, chimeric, and humanized antibodies using recombinant DNA technology, and their therapeutic uses, particularly in the treatment of cancer. The present invention further includes methods and kits for the immunodetection and immunotherapy of cells for samples which express PCBP-1 antigens.

Abstract: The present invention provides and includes monoclonal antibodies (mAbs) preferentially selective for HER2 antigens, hybridoma lines that secrete these HER2 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect HER2 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble or secreted form of HER2. The present invention also includes an antibody or antibody fragment that is capable of reducing the activity of HER2 in at least one form, including a soluble form or a secreted form. The present invention further includes chimeric antibodies, processes for producing monoclonal and chimeric antibodies or monoclonal or chimeric antibodies, and their therapeutic uses, particularly in the detection of cancer most preferentially in human breast, stomach, and colon.

Abstract: The present invention provides and includes monoclonal antibodies (mAbs) preferentially selective for HER2 antigens, hybridoma lines that secrete these HER2 antibodies or antibody fragments, and the use of such antibodies and antibody fragments to detect HER2 antigens, particularly those expressed by cancer cells. The present invention also includes antibodies that are specific for or show preferential binding to a soluble or secreted form of HER2. The present invention also includes an antibody or antibody fragment that is capable of reducing the activity of HER2 in at least one form, including a soluble form or a secreted form. The present invention further includes chimeric antibodies, processes for producing monoclonal and chimeric antibodies or monoclonal or chimeric antibodies, and their therapeutic uses, particularly in the detection of cancer most preferentially in human breast, stomach, and colon.