Breda M. Walsh scite author profile

Kinases are known to regulate fundamental processes in cancer including tumor proliferation, metastasis, neovascularization, and chemoresistance. Accordingly, kinase inhibitors have been a major focus of drug development, and several kinase inhibitors are now approved for various cancer indications. Typically, kinase inhibitors are selected via high-throughput screening using catalytic kinase domains at low ATP concentration, and this process often yields ATP mimetics that lack specificity and/or function poorly in cells where ATP levels are high. Molecules targeting the allosteric site in the inactive kinase conformation (type II inhibitors) provide an alternative for developing selective inhibitors that are physiologically active. By applying a rational design approach using a constrained aminotriazole scaffold predicted to stabilize kinases in the inactive state, we generated a series of selective type II inhibitors of PDGFRβ and B-RAF, important targets for pericyte recruitment and endothelial cell survival, respectively. These molecules were designed in silico and screened for antivascular activity in both cell-based models and a Tg (fli1-EGFP) zebrafish embryogenesis model. Dual inhibition of PDGFRβ and B-RAF cellular signaling demonstrated synergistic antiangiogenic activity in both zebrafish and murine models of angiogenesis, and a combination of previously characterized PDGFRβ and RAF inhibitors validated the synergy. Our lead compound was selected as an orally active molecule with favorable pharmacokinetic properties which demonstrated target inhibition in vivo leading to suppression of murine orthotopic tumors in both the kidney and pancreas.R AF is an important convergent point downstream of FGFR and VEGFR2 signaling in endothelial cells and has previously been shown to play a critical role in endothelial cell survival during angiogenesis (1-3). PDGFRβ is a receptor tyrosine kinase that is essential for promoting proper pericyte function, which stabilizes blood vessels and enables vessel maturation (4-6). We rationalized that inhibition of both RAF and PDGFRβ would produce a potent antiangiogenic effect by targeting the two primary cell types involved in angiogenesis and vascular remodeling, endothelial cells and pericytes, respectively. As such, we designed compounds predicted to inhibit both RAF and PDGFRβ in a selective manner.The recent approval of imatinib (7, 8) (1) and sorafenib (9) (2), inhibitors which target PDGFRβ (10) and/or B-RAF (11, 12), has created much enthusiasm for small molecules that stabilize the inactive kinase conformation (13-15). These two molecules were cocrystallized with their respective targets, B-RAF (16) and Abl (17) kinase domains, and shown to interact in part with the allosteric site in the "DFG-out" conformation, referred to as type II inhibition. Based on the binding mode of sorafenib and imatinib, we synthesized an amino-triazole scaffold designed to target the allosteric site of both PDGFRβ and B-RAF using a combination of in silico screening and in vitro bioass...

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Occipital Ossification of Balaenopteroid Mysticetes

Walsh

Berta

2011

The Anatomical Record

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The bones of the posterior portion of the mammalian skull often exhibit incomplete ossification of the joints between the bones at the time of birth, with complete ossification at some point after birth. The sequence of ossification of these joints in mysticetes can be used to characterize the relative age in the calf and early juvenile ontogenetic stages. This study examined occipital joints ossification of 38 dry prepared neonate specimens in four mysticete species from two families (Eschrichtiidae: Eschrichtius robustus; Balaenopteridae: Balaenoptera acutorostrata, Balaenoptera physalus, and Megaptera novaeangliae). Each of the joints responsible for the fusion of the occiput were examined and rated for degree of ossification. The cranial ossification analysis indicates that E. robustus calves have open occipital joints until 6 months of age and are born at a less mature stage than closely related balaenopterids. All of the species followed the same sequence of ossification: basioccipital/exoccipital joint, followed by the basioccipital/basisphenoid joint, and completed by the supraoccipital/exoccipital joint. Anat Rec, 294:391-398, 2011.

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Intracellular Ca²⁺and Zn²⁺signals during monochloramine-induced oxidative stress in isolated rat colon crypts

Cima¹,

Dubach²,

Wieland³

et al. 2006

American Journal of Physiology-Gastrointestinal and Liver Physi

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During acute exacerbations of inflammatory bowel diseases, oxidants are generated through the interactions of bacteria in the lumen, activated granulocytes, and cells of the colon mucosa. In this study we explored the ability of one such class of oxidants, represented by monochloramine (NH(2)Cl), to serve as agonists of Ca(2+) and Zn(2+) accumulation within the colonocyte. Individual colon crypts prepared from Sprague-Dawley rats were mounted in perfusion chambers after loading with fluorescent reporters fura 2-AM and fluozin 3-AM. These reporters were characterized, in situ, for responsiveness to Ca(2+) and Zn(2+) in the cytoplasm. Responses to different concentrations of NH(2)Cl (50, 100, and 200 microM) were monitored. Subsequent studies were designed to identify the sources and mechanisms of NH(2)Cl-induced increases in Ca(2+) and Zn(2+) in the cytoplasm. Exposure to NH(2)Cl led to dose-dependent increases in intracellular Ca(2+) concentration ([Ca(2+)](i)) in the range of 200-400 nM above baseline levels. Further studies indicated that NH(2)Cl-induced accumulation of Ca(2+) in the cytoplasm is the result of release from intracellular stores and basolateral entry of extracellular Ca(2+) through store-operated channels. In addition, exposure to NH(2)Cl resulted in dose-dependent and sustained increases in intracellular Zn(2+) concentration ([Zn(2+)](i)) in the nanomolar range. These alterations were neutralized by dithiothreitol, which shields intracellular thiol groups from oxidation. We conclude that Ca(2+)- and Zn(2+)-handling proteins are susceptible to oxidation by chloramines, leading to sustained, but not necessarily toxic, increases in [Ca(2+)](i) and [Zn(2+)](i). Under certain conditions, NH(2)Cl may act not as a toxin but as an agent that activates intracellular signaling pathways.

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Secretory state regulates Zn²⁺ transport in gastric parietal cell of the rabbit

Naik

Beshire

Walsh

et al. 2009

American Journal of Physiology-Cell Physiology

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Breda M. Walsh

Disruption of angiogenesis and tumor growth with an orally active drug that stabilizes the inactive state of PDGFRβ/B-RAF

Occipital Ossification of Balaenopteroid Mysticetes

Intracellular Ca²⁺and Zn²⁺signals during monochloramine-induced oxidative stress in isolated rat colon crypts

Secretory state regulates Zn²⁺ transport in gastric parietal cell of the rabbit

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Breda M. Walsh

Disruption of angiogenesis and tumor growth with an orally active drug that stabilizes the inactive state of PDGFRβ/B-RAF

Occipital Ossification of Balaenopteroid Mysticetes

Intracellular Ca2+and Zn2+signals during monochloramine-induced oxidative stress in isolated rat colon crypts

Secretory state regulates Zn2+ transport in gastric parietal cell of the rabbit

Contact Info

Product

Resources

About

Intracellular Ca²⁺and Zn²⁺signals during monochloramine-induced oxidative stress in isolated rat colon crypts

Secretory state regulates Zn²⁺ transport in gastric parietal cell of the rabbit