Publications by authors named "Sara Dolatshahi Pirooz"
Article Synopsis
- UV-induced DNA damage is a significant cause of skin cancers and is mainly repaired by a process called nucleotide excision repair (NER).
- The protein UVRAG is a tumor suppressor that helps in repairing this DNA damage by enhancing the function of a specific ubiquitin ligase complex, which is essential for the effective recruitment of repair proteins.
- Lower levels of UVRAG are found in melanoma cases, indicating that its expression may play a critical role in determining the risk of developing this type of skin cancer.
Autophagy-related factors are implicated in metabolic adaptation and cancer metastasis. However, the role of autophagy factors in cancer progression and their effect in treatment response remain largely elusive. Recent studies have shown that UVRAG, a key autophagic tumour suppressor, is mutated in common human cancers.
View Article and Find Full Text PDFEnveloped viruses exploit the endomembrane system to enter host cells. Through a cascade of membrane-trafficking events, virus-bearing vesicles fuse with acidic endosomes and/or lysosomes mediated by SNAREs triggering viral fusion. However, the molecular mechanisms underlying this process remain elusive.
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- Endoplasmic reticulum (ER)-Golgi transport and autophagy are crucial pathways for cell function and health, and the protein UVRAG plays a significant role in linking them.
- UVRAG binds to certain lipids for proper localization in the ER and is part of a complex that aids in the transport of materials between the ER and Golgi apparatus.
- Disruption of UVRAG affects cargo transfer and organelle integrity, while its dissociation during autophagy helps facilitate the formation of autophagosomes, highlighting a regulatory mechanism in membrane trafficking and organelle upkeep.
UVRAG is a promoter of the autophagy pathway, and its deficiency may fuel the development of cancers. Intriguingly, our recent study has demonstrated that this protein also mediates the repair of damaged DNA and patrols centrosome stability, mechanisms that commonly prevent cancer progression, in a manner independent of its role in autophagy signaling. Given the central role of UVRAG in genomic stability and autophagic cleaning, it is speculated that UVRAG is a bona fide genome protector and that the decrease in UVRAG seen in some cancers may render these cells vulnerable to chromosomal damage, making UVRAG an appealing target for cancer therapy.
View Article and Find Full Text PDFAutophagy defects have recently been associated with chromosomal instability, a hallmark of human cancer. However, the functional specificity and mechanism of action of autophagy-related factors in genome stability remain elusive. Here we report that UVRAG, an autophagic tumor suppressor, plays a dual role in chromosomal stability, surprisingly independent of autophagy.
View Article and Find Full Text PDFγ-Herpesviruses (γ-HVs) are notable for their ability to establish latent infections of lymphoid cells(1). The narrow host range of human γ-HVs, such as EBV and KSHV, has severely hindered detailed pathogenic studies. Murine γ-herpesvirus 68 (γHV68) shares extensive genetic and biological similarities with human γ-HVs and is a natural pathogen of murid rodents(2).
View Article and Find Full Text PDFBcl-2, originally identified as a universal inhibitor of apoptotic cell death, has since been implicated in suppressing autophagy, the cell's quality control mechanism. Our recent study demonstrates that the anti-autophagic aspect of Bcl-2 can function as a promoter of oncogenic growth, independently of its role in apoptosis signaling. It is likely that the increase in Bcl-2 often seen in breast and other cancers might render cells error-prone by blunting autophagy, while concomitantly keeping damaged cells alive.
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