CDC warns of rising spread of babesiosis through blood transfusions http://t.co/lTwKaKL
265 days ago
Very disappointing study, scary how decisions based on so few #s: Cancer trial participation less than 1% http://t.co/RhY7Mkg via @addthis
276 days ago
You may have already seen blog @ Digital Pathology Blog but check out the Pathology Visions Conference-should be great! http://t.co/TVW0M7P
279 days ago
WCLC 2011 Oral Presentations: (More) Genomics http://t.co/xIOaw9j
279 days ago
Remodeling of the extracellular matrix is a key process in cancer invasion. Matrix metalloproteases (MMPs) have been shown to be important in ECM remodeling but identifying individual MMPs with specific roles in various cancers has been difficult due to functional overlap with other proteases. The current Diseases Models and Mechanisms has an interesting article by Hald et al. in which they demonstrate that double-knockout mice lacking both plasmin and MMP-9 develop inflammatory colonic mass lesions that resemble mucosal prolapse lesions in humans. In contrast, wound healing in skin in these mice is normal. The findings indicate tissue-specific differences in ECM remodeling--and thus potential therapeutic targets. Further, this study demonstrates the potential utility of other mouse models for studying ECM remodeling in other tumors. Provocative stuff and more of the EMT story unravels.
Remodeling of the extracellular matrix is a key process in cancer invasion. Matrix metalloproteases (MMPs) have been shown to be important in ECM remodeling but identifying individual MMPs with specific roles in various cancers has been difficult due to functional overlap with other proteases. The current Diseases Models and Mechanisms has an interesting article by Hald et al. in which they demonstrate that double-knockout mice lacking both plasmin and MMP-9 develop inflammatory colonic mass lesions that resemble mucosal prolapse lesions in humans. In contrast, wound healing in skin in these mice is normal. The findings indicate tissue-specific differences in ECM remodeling--and thus potential therapeutic targets. Further, this study demonstrates the potential utility of other mouse models for studying ECM remodeling in other tumors. Provocative stuff and more of the EMT story unravels.