L.A. Manzano scite author profile

Several 7-peptide-substituted pterins were synthesized and tested as competitive active-site inhibitors of Ricin Toxin A (RTA). Focus began on dipeptide conjugates, and these results further guided the construction of several tripeptide conjugates. The binding of these compounds to RTA was studied via a luminescence-based kinetic assay, as well as through X-ray crystallography. Despite the relatively polar, solvent exposed active site, several hydrophobic interactions, most commonly π-interactions, not predicted by modeling programs, were identified in all of the best-performing inhibitors. Nearly all of these compounds provide IC50’s in the low μM range.

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7-Substituted pterins provide a new direction for ricin A chain inhibitors

Pruet¹,

Jasheway²,

Manzano³

et al. 2011

European Journal of Medicinal Chemistry

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Ricin is a potent toxin found in castor seeds. The A chain, RTA, enzymaticlly depurinates a specific adenosine in ribosomal RNA, inhibiting protein synthesis. Ricin is a known chemical weapons threat having no effective antidote. This makes the discovery of new inhibitors of great importance. We have previously used 6-substituted pterins, such as pteroic acid, as an inhibitor platform with moderate success. We now report the success of 7-carboxy pterin (7CP) as an RTA inhibitor; its binding has been monitored using both kinetic and temperature shift assays and by X-ray crystallography. We also discuss the synthesis of various derivatives of 7CP, and their binding affinity and inhibitory effects, as part of a program to make effective RTA inhibitors.

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Development and characterization of normal colonic epithelial cell lines derived from normal mucosa of patients with colon cancer

Stauffer

Manzano

Balch

et al. 1995

The American Journal of Surgery

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Optimized 5-Membered Heterocycle-Linked Pterins for the Inhibition of Ricin Toxin A

Pruet

Saito

Manzano

et al. 2012

ACS Med. Chem. Lett.

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The optimization of a series of pterin amides for use as Ricin Toxin A (RTA) inhibitors is reported. Based upon crystallographic data of a previous furan-linked pterin, various expanded furans were synthesized, linked to the pterin and tested for inhibition. Concurrently, hetero-analogs of furan were explored, leading to the discovery of more potent triazol-linked pterins. Additionally, we discuss a dramatic improvement in the synthesis of these pterin amides via a dual role by diazabicycloundecene (DBU). This synthetic enhancement facilitates rapid diversification of the previously challenging pterin heterocycle, potentially aiding future medicinal research involving this structure.

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L.A. Manzano

NCM460, a normal human colon mucosal epithelial cell line

Peptide-Conjugated Pterins as Inhibitors of Ricin Toxin A

7-Substituted pterins provide a new direction for ricin A chain inhibitors

Development and characterization of normal colonic epithelial cell lines derived from normal mucosa of patients with colon cancer

Optimized 5-Membered Heterocycle-Linked Pterins for the Inhibition of Ricin Toxin A

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