Abstract: The present invention is directed to methods and/or compositions regarding a specific mutation in estrogen receptor alpha and their use for identifying resistance to breast cancer therapy and/or treatment therefor. More specifically, the present invention concerns presence or absence of an A908G mutation in an estrogen receptor alpha nucleic acid sequence, and/or the corresponding K303R mutation in the estrogen receptor alpha polypeptide sequence, for example, as a predictive marker for resistance to breast cancer therapy. Therapeutic embodiments for overcoming the resistance are also provided.

Abstract: The present invention is directed to compositions regarding a specific mutation in estrogen receptor alpha and their use as diagnostic markers in breast tissue, such as premalignant lesions, for the development of breast cancer. More specifically, cells of breast cancer whose nucleic acid comprises the estrogen receptor alpha mutation identify the breast cancer to be an invasive breast cancer.

Abstract: The present invention is directed to compositions regarding a specific mutation in estrogen receptor alpha and their use as diagnostic markers in breast tissue, such as premalignant lesions, for the development of breast cancer. More specifically, cells of breast cancer whose nucleic acid comprises the estrogen receptor alpha mutation identify the breast cancer to be an invasive breast cancer.

Abstract: The present invention regards predicting a response to a therapy using RNA expression profiling. In particular, a resistance to a chemotherapy, such as tamoxifen, is predicted by comparing expressed genes in a patient on the therapy to a patient sensitive to the chemotherapy. In further embodiments, there is an RNA expression profile indicative of tamoxifen resistance in an individual. In additional embodiments, the RNA expression profile comprises DUSP6 EBP50, and/or RhoGDIa.

Abstract: The present invention regards predicting a response to a therapy using RNA expression profiling. In particular, a resistance to a chemotherapy, such as tamoxifen, is predicted by comparing expressed genes in a patient on the therapy to a patient sensitive to the chemotherapy. In further embodiments, there is an RNA expression profile indicative of tamoxifen resistance in an individual. In additional embodiments, the RNA expression profile comprises DUSP6 EBP50, and/or RhoGDIa.

Abstract: The present invention is directed to compositions regarding a specific mutation in estrogen receptor alpha and their use as diagnostic markers in breast tissue, such as premalignant lesions, for the development of breast cancer. More specifically, cells of breast cancer whose nucleic acid comprises the estrogen receptor alpha mutation identify the breast cancer to be an invasive breast cancer.

Abstract: The present invention is directed to compositions regarding a specific mutation in estrogen receptor alpha and their use as diagnostic markers in breast tissue, such as premalignant lesions, for the development of breast cancer. More specifically, cells of breast cancer whose nucleic acid comprises the estrogen receptor alpha mutation identify the breast cancer to be an invasive breast cancer.

Abstract: The present invention is directed to compositions regarding a specific mutation in estrogen receptor alpha and their use as diagnostic markers in breast tissue, such as premalignant lesions, for the development of breast cancer. More specifically, cells of breast cancer whose nucleic acid comprises the estrogen receptor alpha mutation identify the breast cancer to be an invasive breast cancer.

Abstract: The present invention is directed to compositions regarding a specific mutation in estrogen receptor alpha and their use as diagnostic markers in breast tissue, such as premalignant lesions, for the development of breast cancer. More specifically, cells of breast cancer whose nucleic acid comprises the estrogen receptor alpha mutation identify the breast cancer to be an invasive breast cancer.

Abstract: The invention relates to a method of predicting disease-free survival in cancer patients by relating the number and amount of stress response proteins in cancer tissue to the probability of tumor recurrence. Particular heat shock/stress response proteins useful in the determination of tumor recurrence are the stress response proteins, hsp70, hsp90, hsp27, and glucose regulated protein grp94. Specific levels of the stress response proteins relative to an internal standard are identified, above which the probability of tumor recurrence is highly significant. Kit methods are disclosed which could enable determination of the stress proteins by an antibody assay.