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Assessment of Diverse Cancer Types: mAb Detection of Cell Surface Biomarker in Circulating Tumor Cells or Biopsy Tissue

Technology Benefits

The ability to assess circulating tumor cells in a blood sample:is less invasive than a tumor biopsy and may complement information derived from a primary tumor biopsyavoids issues of tumor non-homogeneityis compatible with testing pathology slides, fluorescence-activated cell sorting (FACS) or flow cytometry analysis In addition, the commercial availability of an ανβ3-specific mAb (LM609) enhances the translation to clinical practice.

Technology Application

The invention provides methods for determining the course of cancer therapy at the level of personalized medicine. Applications include early detection of cancer as well as an ability to predict tumor progression, metastasis and growth factor resistance. In this latter application, results demonstrate that screening for β3 expression in biopsies (blood or tissue) could identify patients who would benefit from alternative/combinatorial approaches (e.g., growth factor inhibitors and NfKb inhibitors.

Detailed Technology Description

UC researchers have identified a biomarker (beta3 integrin of alpha‐v/beta3) that is detectable in circulating tumor cells (CTCs) and that correlates with poor patient prognosis, metastatic potential, tumor “stemness” and drug resistance. Presence on CTCs may also provide an early indication of cancer progression, as CTCs may be the more stem-like tumor cells that seed secondary metastatic tumors. In this context, assessing CTCs may proscribe improved treatment options as treating a patient with a growth factor inhibitor may actually drive cells toward a beta3-positive phenotype and growth factor inhibitor resistance.

Application No.

20180203014

Others

State Of Development

UC researchers found that up-regulated expression of integrin β3 on primary tumor cells as well as circulating tumor cells was: