E. Railey White scite author profile

The heterodimeric tumor-suppressor complex BRCA1/BARD1 exhibits E3 ubiquitin ligase activity and participates in cell proliferation and chromosome stability control by incompletely defined mechanisms. Here we show that, in both mammalian cells and Xenopus egg extracts, BRCA1/BARD1 is required for mitotic spindle-pole assembly and for accumulation of TPX2, a major spindle organizer and Ran target, on spindle poles. This function is centrosome independent, operates downstream of Ran GTPase, and depends upon BRCA1/BARD1 E3 ubiquitin ligase activity. Xenopus BRCA1/BARD1 forms endogenous complexes with three spindle-pole proteins, TPX2, NuMA, and XRHAMM--a known TPX2 partner--and specifically attenuates XRHAMM function. These observations reveal a previously unrecognized function of BRCA1/BARD1 in mitotic spindle assembly that likely contributes to its role in chromosome stability control and tumor suppression.

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Peptide Library Approach to Uncover Phosphomimetic Inhibitors of the BRCA1 C-Terminal Domain

White

Sun

Ma³

et al. 2015

ACS Chem. Biol.

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Many intracellular protein–protein interactions are mediated by the phosphorylation of serine, and phosphoserine-containing peptides can inhibit these interactions. However, hydrolysis of the phosphate by phosphatases, and the poor cell permeability associated with phosphorylated peptides has limited their utility in cellular and in vivo contexts. Compounding the problem, strategies to replace phosphoserine in peptide inhibitors with easily accessible mimetics (such as Glu or Asp) routinely fail. Here, we present an in vitro selection strategy for replacement of phosphoserine. Using mRNA display, we created a 10 trillion member structurally diverse unnatural peptide library. From this library, we found a peptide that specifically binds to the C-terminal domain (BRCT)2 of breast cancer associated protein 1 (BRCA1) with an affinity comparable to phosphorylated peptides. A crystal structure of the peptide bound reveals that the pSer-x-x-Phe motif normally found in BRCA1 (BRCT)2 binding partners is replaced by a Glu-x-x-4-fluoroPhe and that the peptide picks up additional contacts on the protein surface not observed in cognate phosphopeptide binding. Expression of the peptide in human cells led to defects in DNA repair by homologous recombination, a process BRCA1 is known to coordinate. Overall, this work validates a new in vitro selection approach for the development of inhibitors of protein–protein interactions mediated by serine phosphorylation.

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BRCA1-directed, enhanced and aberrant homologous recombination

et al. 2012

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Despite intense studies, questions still remain regarding the molecular mechanisms leading to the development of hereditary breast and ovarian cancers. Research focused on elucidating the role of the breast cancer susceptibility gene 1 (BRCA1) in the DNA damage response may be of the most critical importance to understanding these processes. The BRCA1 protein has an N-terminal RING domain possessing E3 ubiquitinligase activity and a C-terminal BRCT domain involved in binding specific phosphoproteins. These domains are involved directly or indirectly in DNA double-strand break (DSB) repair. As the two terminal domains of BRCA1 represent two separate entities, understanding how these domains communicate and are functionally altered in regards to DSB repair is critical for understanding the development of BRCA1-related breast and ovarian cancers and for developing novel therapeutics. Herein, we review recent findings of how altered functions of these domains might lead to cancer through a mechanism of increased aberrant homologous recombination and possible implications for the development of BRCA1 inhibitors.

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Replacing amino acids in translation: Expanding chemical diversity with non-natural variants

White

Reed

et al. 2013

Methods

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Azi-medetomidine: Synthesis and Characterization of a Novel α2 Adrenergic Photoaffinity Ligand

McKinstry-Wu

Woll

Joseph

et al. 2019

ACS Chem. Neurosci.

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Agonists at the α2 adrenergic receptor produce sedation, increase focus, provide analgesia, and induce centrally mediated hypotension and bradycardia, yet neither their dynamic interactions with adrenergic receptors nor their modulation of neuronal circuit activity is completely understood. Photoaffinity ligands of α2 adrenergic agonists have the potential both to capture discrete moments of ligand–receptor interactions and to prolong naturalistic drug effects in discrete regions of tissue in vivo. We present here the synthesis and characterization of a novel α2 adrenergic agonist photolabel based on the imidazole medetomidine called azi-medetomidine. Azi-medetomidine shares protein association characteristics with its parent compound in experimental model systems and by molecular dynamics simulation of interactions with the α2A adrenergic receptor. Azi-medetomidine acts as an agonist at α2A adrenergic receptors, and produces hypnosis in Xenopus laevis tadpoles. Azi-medetomidine competes with the α2 agonist clonidine at α2A adrenergic receptors, which is potentiated by photolabeling, and azi-medetomidine labels moieties on the α2A adrenergic receptor as determined by mass spectrometry in a manner consistent with a simulated model. This novel α2 adrenergic agonist photolabel can serve as a powerful tool for in vitro and in vivo investigations of adrenergic signaling.

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Synthesis and Characterization of a Diazirine-Based Photolabel of the Nonanesthetic Fropofol

White

Leace

Bedell

et al. 2020

ACS Chem. Neurosci.

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The mechanisms of general anesthetics have been debated in the literature for many years and continue to be of great interest. As anesthetic molecules are notoriously difficult to study due to their low binding affinities and multitude of binding partners, it is advantageous to have additional tools to study these interactions. Fropofol is a hydroxyl to fluorine-substituted propofol analogue that is able to antagonize the actions of propofol. Understanding fropofol’s ability to antagonize propofol would facilitate further characterization of the binding interactions of propofol that may contribute to its anesthetic actions. However, the study of fropofol’s molecular interactions has many of the same difficulties as its parent compound. Here, we present the synthesis and characterization of ortho-azi-fropofol (AziFo) as a suitable photoaffinity label (PAL) of fropofol that can be used to covalently label proteins of interest to characterize fropofol’s binding interactions and their contribution to general anesthetic antagonism.

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555 A novel inhabitant of the wound microbiome promotes wound healing through IL-6-mediated re-epithelialization

White

Uberoi

Grice

2022

Journal of Investigative Dermatology

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Abstract 4539: Selection of non-phophorylated peptide inhibitors of BRCA1.

White

Hacker

et al. 2013

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A growing body of literature suggests Breast Cancer-Associated Protein 1 (BRCA1) is important not only as a cause, but also as a target in the quest for cancer treatment. BRCA1 deficient cells treated with radiation as well as PARP inhibitors and other chemotherapeutics demonstrate a greater sensitivity than cells with wild type BRCA1. Inhibitors of BRCA1 would take advantage of this synthetic lethality and represent a significant advance in cancer treatment as well as an understanding of the biology of DNA repair. Despite significant study of BRCA1 protein and function, it is a large protein (208 KDa) that is still largely uncharacterized, but its N- and C-terminal domains have been described by significant structural data. The BRCT (BRCA1 C-Terminal) Domain is a phosphoprotein binding domain that is commonly mutated or lost in cancers and has a binding cleft seemingly very suitable for drug design. Small molecule screens have been conducted against this domain, but the resulting hits with moderate affinity have not been shown to induce BRCA1 deficient phenotypes. Phosphopeptides have also been studied as potential BRCA1 inhibitors, yet despite some having affinities in the mid-nanomolar range the presence of a phosphate is not without its pharmacologic challenges. We generated an mRNA display library with 1.3 x 10ˆ13 cyclized peptides covalently attached to the mRNA that encoded them. Eight rounds of selection exposing the library to a GST-BRCT fusion resulted in non-phosphorylated peptides that bind to a BRCT domain of BRCA1. The sequences resulting from the selection have common homologies and initial characterization has shown that these peptides may be the first viable non-phosphoserine containing inhibitors of BRCA1. Citation Format: E. Railey White, Zhong Ma, David E. Hacker, Jason M. Beckta, Melissa B. Huie, David C. Williams, Kristoffer Valerie, Matthew C. Hartman. Selection of non-phophorylated peptide inhibitors of BRCA1. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 4539. doi:10.1158/1538-7445.AM2013-4539

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E. Railey White

The BRCA1/BARD1 Heterodimer Modulates Ran-Dependent Mitotic Spindle Assembly

Peptide Library Approach to Uncover Phosphomimetic Inhibitors of the BRCA1 C-Terminal Domain

BRCA1-directed, enhanced and aberrant homologous recombination

Replacing amino acids in translation: Expanding chemical diversity with non-natural variants

Azi-medetomidine: Synthesis and Characterization of a Novel α2 Adrenergic Photoaffinity Ligand

Synthesis and Characterization of a Diazirine-Based Photolabel of the Nonanesthetic Fropofol

555 A novel inhabitant of the wound microbiome promotes wound healing through IL-6-mediated re-epithelialization

Abstract 4539: Selection of non-phophorylated peptide inhibitors of BRCA1.

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