Regulation of Claspin by the p38 stress-activated protein kinase protects cells from DNA damage.

Stress-activated protein kinases (SAPKs) enhance survival in response to environmental changes. In yeast, the Hog1 SAPK and Mrc1, a protein required for DNA replication, define a safeguard mechanism that allows eukaryotic cells to prevent genomic instability upon stress during S-phase. Here we show that, in mammals, the p38 SAPK and Claspin-the functional homolog of Mrc1-protect cells from DNA damage upon osmostress during S-phase.

Flavin dependency undermines proteome stability, lipid metabolism and cellular proliferation during vitamin B2 deficiency.

Tumor cells adapt their metabolism to meet the energetic and anabolic requirements of high proliferation and invasiveness. The metabolic addiction has motivated the development of therapies directed at individual biochemical nodes. However, currently there are few possibilities to target multiple enzymes in tumors simultaneously.

The protective role of m1A during stress-induced granulation.

Post-transcriptional methylation of N6-adenine and N1-adenine can affect transcriptome turnover and translation. Furthermore, the regulatory function of N6-methyladenine (m6A) during heat shock has been uncovered, including the enhancement of the phase separation potential of RNAs. In response to acute stress, e.

The p38 Pathway: From Biology to Cancer Therapy.

The p38 MAPK pathway is well known for its role in transducing stress signals from the environment. Many key players and regulatory mechanisms of this signaling cascade have been described to some extent. Nevertheless, p38 participates in a broad range of cellular activities, for many of which detailed molecular pictures are still lacking.

Assembly of Proteins by Free RNA during the Early Phase of Proteostasis Stress.

At any stage of their lifecycle, mRNAs are coated by specialized proteins. One of few circumstances when free mRNA appears in the cytosol is the disassembly of polysomes during the stress-induced shutdown of protein synthesis. Using quantitative mass spectrometry, we sought to identify the free RNA-interacting cellular machinery in heat-shocked mammalian cells.