Annette Ferrari scite author profile

In the developing brain, transcription factors (TFs) direct the formation of a diverse array of neurons and glia. We identifed 1445 putative TFs in the mouse genome. We used in situ hybridization to map the expression of over 1000 of these TFs and TF-coregulator genes in the brains of developing mice. We found that 349 of these genes showed restricted expression patterns that were adequate to describe the anatomical organization of the brain. We provide a comprehensive inventory of murine TFs and their expression patterns in a searchable brain atlas database.

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Synthetic Generation of Influenza Vaccine Viruses for Rapid Response to Pandemics

Dormitzer

et al. 2013

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During the 2009 H1N1 influenza pandemic, vaccines for the virus became available in large quantities only after human infections peaked. To accelerate vaccine availability for future pandemics, we developed a synthetic approach that very rapidly generated vaccine viruses from sequence data. Beginning with hemagglutinin (HA) and neuraminidase (NA) gene sequences, we combined an enzymatic, cell-free gene assembly technique with enzymatic error correction to allow rapid, accurate gene synthesis. We then used these synthetic HA and NA genes to transfect Madin-Darby canine kidney (MDCK) cells that were qualified for vaccine manufacture with viral RNA expression constructs encoding HA and NA and plasmid DNAs encoding viral backbone genes. Viruses for use in vaccines were rescued from these MDCK cells. We performed this rescue with improved vaccine virus backbones, increasing the yield of the essential vaccine antigen, HA. Generation of synthetic vaccine seeds, together with more efficient vaccine release assays, would accelerate responses to influenza pandemics through a system of instantaneous electronic data exchange followed by real-time, geographically dispersed vaccine production.

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Evaluating LC–MS/MS To Measure Accumulation of Compounds within Bacteria

Iyer

Ferrari

et al. 2018

ACS Infect. Dis.

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A general method for determining bacterial uptake of compounds independent of antibacterial activity would be a valuable tool in antibacterial drug discovery. LC-MS/MS assays have been described, but it has not been shown whether the data can be used directly to inform medicinal chemistry. We describe the evaluation of an LC-MS/MS assay measuring association of compounds with bacteria, using a set of over a hundred compounds (inhibitors of NAD-dependent DNA ligase, LigA) for which in vitro potency and antibacterial activity had been determined. All compounds were active against an efflux-deficient strain of Escherichia coli with reduced LigA activity ( E. coli ligA251 Δ tolC). Testing a single compound concentration and incubation time, we found that, for equipotent compounds, LC-MS/MS values were not predictive of antibacterial activity. This indicates that measured bacteria-associated compound was not necessarily exposed to the target enzyme. Our data suggest that, while exclusion from bacteria is a major reason for poor antibacterial activity of potent compounds, the distribution of compound within the bacterial cell may also be a problem. The relative importance of these factors is likely to vary from one chemical series to another. Our observations provide directions for further study of this difficult issue.

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A Fluorescent Microplate Assay Quantifies Bacterial Efflux and Demonstrates Two Distinct Compound Binding Sites in AcrB

Iyer

Ferrari

Rijnbrand

et al. 2015

Antimicrob Agents Chemother

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A direct assay of efflux by Escherichia coli AcrAB-TolC and related multidrug pumps would have great value in discovery of new Gram-negative antibiotics. The current understanding of how efflux is affected by the chemical structure and physical properties of molecules is extremely limited, derived from antibacterial data for compounds that inhibit growth of wild-type E. coli. We adapted a previously described fluorescent efflux assay to a 96-well microplate format that measured the ability of test compounds to compete for efflux with Nile Red (an environment-sensitive fluor), independent of antibacterial activity. We show that Nile Red and the lipid-sensitive probe DiBAC 4 -(3) [bis-(1,3-dibutylbarbituric acid)-trimethine oxonol] can quantify efflux competition in E. coli. We extend the previous findings that the tetracyclines compete with Nile Red and show that DiBAC 4 -(3) competes with macrolides. The extent of the competition shows a modest correlation with the effect of the acrB deletion on MICs within the compound sets for both dyes. Crystallographic studies identified at least two substrate binding sites in AcrB, the proximal and distal pockets. High-molecular-mass substrates bound the proximal pocket, while low-mass substrates occupied the distal pocket. As DiBAC 4 -(3) competes with macrolides but not with Nile Red, we propose that DiBAC 4 -(3) binds the proximal pocket and Nile Red likely binds the distal site. In conclusion, competition with fluorescent probes can be used to study the efflux process for diverse chemical structures and may provide information as to the site of binding and, in some cases, enable rank-ordering a series of related compounds by efflux.T ripartite multidrug efflux pumps are widely represented across Gram-negative bacteria. The two best studied examples are AcrAB-TolC of Escherichia coli and MexAB-OprM of Pseudomonas aeruginosa (1, 2). The normal physiological function for the E. coli AcrB pump is to protect bacterial cells from bile salts inside the human host (3). However, it appears that bacterial efflux pumps and their components may also serve other diverse functions (4-7). AcrB is a proton-driven antiporter that derives its energy from the proton motive force that exists across the bacterial cytoplasmic membrane (8, 9). AcrB is organized as a homotrimer and interacts with two other components, the outer membrane partner TolC and the small periplasmic adapter lipoprotein AcrA (10, 11). The broad substrate preference of AcrB includes bile salts and detergents as well as diverse structurally unrelated antibiotics and chemicals (12-14), making it a vital player in determining intrinsic antibiotic resistance (15).AcrAB-TolC is the best-characterized bacterial efflux pump with regard to structure (16), with crystal structures solved for the individual components (17-22). The most recent high-resolution crystals show each monomer in a different configuration, lending support to a peristaltic mechanism for pump function (19). The three monomer forms, called Access (A), Binding...

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Annette Ferrari

Mouse Brain Organization Revealed Through Direct Genome-Scale TF Expression Analysis

Synthetic Generation of Influenza Vaccine Viruses for Rapid Response to Pandemics

Evaluating LC–MS/MS To Measure Accumulation of Compounds within Bacteria

A Fluorescent Microplate Assay Quantifies Bacterial Efflux and Demonstrates Two Distinct Compound Binding Sites in AcrB

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