The
use of many essential drugs is restricted due to their deleterious
effects on the liver. Molecules that can prevent or protect the liver
from drug-induced liver injury (DILI) would be invaluable in such
situations. We used a transgenic line in zebrafish with a hepatocyte-specific
expression of bacterial nitroreductase to cause temporally controlled
liver damage. A whole organism-based chemical screen using the transgenic
line identified BML-257, a potent small molecule AKT inhibitor, that
protected the liver against metronidazole-induced liver injury. BML-257
also showed potent prophylactic and pro-regenerative activity in this
liver damage model. BML-257 was tested in two independent toxicological
models of liver injury caused by acetaminophen and isoniazid and was
found to be protective against damage. This suggests that BML-257
has the potential to protect against multiple kinds of DILI.
In this paper, we prove some normality criteria concerning transitivity of normality from one family of meromorphic functions to another which improve and generalize some recent results. We also prove some value distribution results for certain differential polynomials which lead to some normality criteria involving sharing of holomorphic functions with certain differential polynomials. As a consequence, a counterexample to the converse of the Bloch's principle is also given.
The use of many essential drugs is restricted due to their deleterious effects on the liver. Molecules that can prevent or protect the liver from drug induced liver injury (DILI) would be valuable in such situations. We used hepatocyte-specific expression of bacterial nitroreductase in zebrafish to cause temporally controlled liver damage. This transgenic line was used to run a whole organism based chemical screen in zebrafish larvae. In this screen we identified BML-257, a potent small molecule AKT inhibitor, that protected the liver against metronidazole-induced liver injury. BML-257 also showed potent prophylactic and pro-regenerative activity in this liver damage model. BML-257 also showed remarkable protective action in two independent toxicological models of liver injury caused by acetaminophen and Isoniazid. This suggests that BML-257 may have the potential to protect against multiple kinds of drug induced liver injury.
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