Hong He scite author profile

The p21-activated kinase (PAK) family of serine/threonine kinases plays an important role in cell proliferation, survival and motility, as well as in cell transformation and tumor progression. PAK1 promotes transformation through facilitating the ERK/MAPK pathway and enhances cell migration and survival by stimulating AKT. PAK1 expression increases with the progression of colorectal cancer (CRC). In this study, we have investigated the importance of PAK1 in the biology of colon cancer cells. Reduction of PAK1 expression decreased the activities of ERK and AKT leading to decreased cell proliferation, migration/invasion, and survival. Dual inhibition of ERK and AKT suppressed these cellular processes to levels comparable to those achieved by reduction of PAK1 expression, whereas inactivation of either the ERK or AKT pathway alone partially inhibited cell migration/invasion and survival and had no effect on proliferation. We conclude that PAK1 stimulates colon cancer cell proliferation, migration/invasion, and survival via ERK- and AKT-dependent pathways. These findings establish the central importance of PAK1 in CRC signal transduction and clarify the mechanism by which PAK1 regulates CRC growth and migration. Instead of simultaneously inhibiting both ERK and AKT, the PAK1 convergence point could be an alternative target for CRC therapy.

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Discovery of Inhibitors of Escherichia coli Methionine Aminopeptidase with the Fe(II)-Form Selectivity and Antibacterial Activity

Wang

Chai

Huang

et al. 2008

J. Med. Chem.

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Methionine aminopeptidase (MetAP) is a promising target to develop novel antibiotics, because all bacteria express MetAP from a single gene that carries out the essential function of removing Nterminal methionine from nascent proteins. Divalent metal ions play a critical role in the catalysis, and there is an urgent need to define the actual metal used by MetAP in bacterial cells. By high throughput screening, we identified a novel class of catechol-containing MetAP inhibitors that display selectivity for the Fe(II)-form of MetAP. X-ray structure revealed that the inhibitor binds to MetAP at the active site with the catechol coordinating to the metal ions. Importantly, some of the inhibitors showed antibacterial activity at low micromolar concentration on Gram-positive and Gram-negative bacteria. Our data indicate that Fe(II) is the likely metal used by MetAP in the cellular environment, and MetAP inhibitors need to inhibit this metalloform of MetAP effectively to be therapeutically useful.

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Hong He

PAK1-blockers: Potential Therapeutics against COVID-19

P21-activated kinase 1 stimulates colon cancer cell growth and migration/invasion via ERK- and AKT-dependent pathways

Discovery of Inhibitors of Escherichia coli Methionine Aminopeptidase with the Fe(II)-Form Selectivity and Antibacterial Activity

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