Inactive tumor suppressor gene discovered in lung cancer

Correct polarization (orientation in space) of bronchial epithelial cells is essential for the maintenance and proper development of this tissue under normal conditions. PARD3 gene encodes a protein that regulates cell polarization and cell junctions. When the gene is inactivated, errors occur in this cell orientation and in contact with neighboring cells. “Any change affecting … Continue reading “Inactive tumor suppressor gene discovered in lung cancer”

Correct polarization (orientation in space) of bronchial epithelial cells is essential for the maintenance and proper development of this tissue under normal conditions.

PARD3 gene encodes a protein that regulates cell polarization and cell junctions. When the gene is inactivated, errors occur in this cell orientation and in contact with neighboring cells. “Any change affecting this structure promotes tumor development,” said the researcher Montse Sanchez-Cespedes.

Tumor invasion and metastasis

By restoring protein encoded by PARD3 levels, both, cell lines and animal models of mice, we observed that regulating de novo polarization of cells, significantly reduced the risk of metastasis.

Lung cancer

Lung cancer is one of the tumors having higher mortality rates worldwide. Only in Spain each year about 20,000 people die from this cause. The high mortality rate is mainly due to late diagnosis of the disease, when it is already in an advanced stage.

Late detection and lack of effective therapies make the probability of survival of patients with lung cancer is very low. Overall, only 10% and 15% of patients survive more than five years after detection. The origin of more than 80% of cases is the consumption of snuff. The squamous lung cancer and lung adenocarcinoma type are the two most common types of lung tumor.

Author: Joe Lovrek

Born in Houston, Raised in Trinity Texas

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