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Astrocytes are emerging as essential regulators of brain metastasis progression. In a current issue of Nature, Chen et al. identify a novel mechanism of astrocyte-carcinoma interaction and exploit vulnerabilities therein to slow brain metastatic growth in pre-clinical models.
Elimination of misfolded proteins of the endoplasmic reticulum (ER) requires their retrotranslocation from the ER to the cytosol via membrane-bound ubiquitin ligase complexes. Baldridge and Rapoport now reconstitute a key step of retrotranslocation, demonstrating a protein conduit gated by ubiquitination.
Generation and growth of the blood vasculature network is a highly synchronized process, requiring coordinated efforts of endothelial cells and pericytes to maintain blood vessel integrity and regeneration. In a recent paper published in Cell Research, Yu et al. identified and characterized bipotent Procr-expressing vascular endothelial stem cells, which give rise to both endothelial cells and pericytes.
The tumor microenvironment is recognized as a critical regulator of cancer progression, and multiple roles are also emerging for the microenvironment in modulating response to therapeutic intervention. A recent study by Wang and colleagues identified IFN-γ as a central effector of CD8+ T cell-mediated regulation of glutathione and cysteine metabolism in fibroblasts, which consequently abrogates stromal-induced resistance through modulation of cisplatin intracellular content in ovarian cancer cells.