AI Article Synopsis
- In response to DNA damage, checkpoint proteins like Hus1 help prevent mutations and tumor formation by stopping the cell cycle for repair or triggering cell death.
- The Hus1 protein forms a complex with Rad9 and Rad1 to target and repair DNA damage, and its complete loss in mice is lethal, prompting researchers to create a method to study Hus1 specifically in mammary glands.
- Deleting Hus1 in mammary tissues leads to DNA damage and cell death but doesn’t alter gland structure, while the absence of the tumor suppressor p53 complicates this process, causing abnormal tissue structure and impaired healing.
Article Abstract
In response to DNA damage, checkpoint proteins halt cell cycle progression and promote repair or apoptosis, thereby preventing mutation accumulation and suppressing tumor development. The DNA damage checkpoint protein Hus1 associates with Rad9 and Rad1 to form the 9-1-1 complex, which localizes to DNA lesions and promotes DNA damage signaling and repair. Because complete inactivation of mouse Hus1 results in embryonic lethality, we developed a system for regulated Hus1 inactivation in the mammary gland to examine roles for Hus1 in tissue homeostasis and tumor suppression. Hus1 inactivation in the mammary epithelium resulted in genome damage that induced apoptosis and led to depletion of Hus1-null cells from the mammary gland. Conditional Hus1 knockout females retained grossly normal mammary gland morphology, suggesting compensation by cells that failed to undergo Cre-mediated Hus1 deletion. p53-deficiency delayed the clearance of Hus1-null cells from conditional Hus1 knockout mice and caused the accumulation of damaged, dying cells in the mammary gland. Notably, compensatory responses were impaired following combined Hus1 and p53 loss, resulting in aberrant mammary gland morphology and lactation defects. Overall, these results establish a requirement for Hus1 in the survival and proliferation of mammary epithelium and identify a role for p53 in mammary gland tissue regeneration and homeostasis.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2795509 | PMC |
| http://dx.doi.org/10.1073/pnas.0904965106 | DOI Listing |
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Article Synopsis
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