Results 131 to 140 of about 1,253,203 (304)
Clinical laboratory COVID-19 response call : January 11, 2021 [PDF]
CDC\u2019s Division of Laboratory Systems (DLS) convenes regular calls with clinical laboratories to discuss the nation\u2019s clinical laboratory response to coronavirus disease (COVID-19).
core
We identify USP29 as the only DUB mirroring CA9 expression, a marker of hypoxia and HIF pathway activation associated with PCA aggressiveness. USP29 stabilizes HIF‐1α and HIF‐2α via a noncanonical mechanism that is independent of PHD/pVHL activity yet relies on proteasomal regulation, establishing USP29 as a previously unrecognized regulator of hypoxic
Amelie S Schober +16 more
wiley +1 more source
Clinical laboratory COVID-19 response call : September 14, 2020 [PDF]
CDC\u2019s Division of Laboratory Systems (DLS) convenes regular calls with clinical laboratories to discuss the nation\u2019s clinical laboratory response to coronavirus disease (COVID-19).
core
MITF maintains genome stability in nonmelanocyte lineages
MITF is essential for melanocyte survival and acts as an oncogene in 10%–20% of melanomas. We show that MITF depletion causes genome instability in nonmelanocytic cells, leading to LATS2‐mediated P53 activation, cell cycle arrest, and apoptosis. This study highlights the role of MITF as a genome maintenance factor beyond the melanocyte lineage. Created
Drifa H. Gudmundsdottir +13 more
wiley +1 more source
Clinical laboratory COVID-19 response call : November 2, 2020 [PDF]
CDC\u2019s Division of Laboratory Systems (DLS) convenes regular calls with clinical laboratories to discuss the nation\u2019s clinical laboratory response to coronavirus disease (COVID-19).
core
Oncogenic DMTF1β promotes cancer cell motility by regulating autophagy through ULK1 stabilization
In the current study, we demonstrate that the oncogene DMTF1β regulates ULK1 stability by reducing its proteasomal degradation in cancer cells. This stabilization enables ULK1 to induce autophagy, which in turn facilitates cancer cell migration. Consequently, reduced DMTF1β levels lead to decreased autophagy and impaired cancer cell migration.
Jun Xu +13 more
wiley +1 more source
Clinical laboratory COVID-19 response call : April 20, 2020 [PDF]
CDC\u2019s Division of Laboratory Systems (DLS) convenes regular calls with clinical laboratories to discuss the nation\u2019s clinical laboratory response to coronavirus disease (COVID-19).
core
Patient‐derived organoids (PDOs) from pancreatic, colorectal, and gastric cancers were used to evaluate standard and experimental therapies. Incorporating cancer‐associated fibroblasts (CAFs) into organoid cultures improved patient therapy outcome prediction.
Marcin Grochowski +12 more
wiley +1 more source
Clinical laboratory COVID-19 response call : May 3, 2021 [PDF]
CDC\u2019s Division of Laboratory Systems (DLS) convenes regular calls with clinical laboratories to discuss the nation\u2019s clinical laboratory response to coronavirus disease (COVID-19).
core
Loss of proton‐sensing TDAG8 increases tumor progression in mouse models of colon cancer
Loss of the pH‐sensing receptor TDAG8 accelerates colorectal cancer progression in mice. Animals lacking TDAG8 expression had increased tumor growth, DNA damage, and recruitment of tumor‐associated immune cells, including macrophages, neutrophils, and monocytes.
Ermanno Malagola +11 more
wiley +1 more source

