BackgroundAge-related macular degeneration (AMD) is a leading cause of blindness that
affects the central region of the retinal pigmented epithelium (RPE), choroid, and
neural retina. Initially characterized by an accumulation of sub-RPE deposits, AMD
leads to progressive retinal degeneration, and in advanced cases, irreversible
vision loss. Although genetic analysis, animal models, and cell culture systems
have yielded important insights into AMD, the molecular pathways underlying AMD's
onset and progression remain poorly delineated. We sought to better understand the
molecular underpinnings of this devastating disease by performing the first
comparative transcriptome analysis of AMD and normal human donor eyes.MethodsRPE-choroid and retina tissue samples were obtained from a common cohort of 31
normal, 26 AMD, and 11 potential pre-AMD human donor eyes. Transcriptome profiles
were generated for macular and extramacular regions, and statistical and
bioinformatic methods were employed to identify disease-associated gene signatures
and functionally enriched protein association networks. Selected genes of high
significance were validated using an independent donor cohort.ResultsWe identified over 50 annotated genes enriched in cell-mediated immune responses
that are globally over-expressed in RPE-choroid AMD phenotypes. Using a machine
learning model and a second donor cohort, we show that the top 20 global genes are
predictive of AMD clinical diagnosis. We also discovered functionally enriched
gene sets in the RPE-choroid that delineate the advanced AMD phenotypes,
neovascular AMD and geographic atrophy. Moreover, we identified a graded increase
of transcript levels in the retina related to wound response, complement cascade,
and neurogenesis that strongly correlates with decreased levels of
phototransduction transcripts and increased AMD severity. Based on our findings,
we assembled protein-protein interactomes that highlight functional networks
likely to be involved in AMD pathogenesis.ConclusionsWe discovered new global biomarkers and gene expression signatures of AMD. These
results are consistent with a model whereby cell-based inflammatory responses
represent a central feature of AMD etiology, and depending on genetics,
environment, or stochastic factors, may give rise to the advanced AMD phenotypes
characterized by angiogenesis and/or cell death. Genes regulating these
immunological activities, along with numerous other genes identified here,
represent promising new targets for AMD-directed therapeutics and diagnostics.Please see related commentary:
http://www.biomedcentral.com/1741-7015/10/21/abstract
It appears that, as fluoroquinolone resistance emerges among S. pneumoniae in the United States, resistance to other antimicrobial classes is becoming less common.
The population of macrolide-resistant S. pyogenes isolates in the United States is small, but it includes several large clones with potential for expansion.
A new cascade impactor has been designed specifically for pharmaceutical inhaler testing. This impactor, called the Next Generation Pharmaceutical Impactor (NGI), has seven stages and is intended to operate at any inlet flow rate between 30 and 100 L/min. It spans a cut size (D50) range from 0.54-microm to 11.7-microm aerodynamic diameter at 30 L/min and 0.24 microm to 6.12 microm at 100 L/min. The aerodynamics of the impactor follow established scientific principles, giving confident particle size fractionation behavior over the design flow range. The NGI has several features to enhance its utility for inhaler testing. One such feature is that particles are deposited on collection cups that are held in a tray. This tray is removed from the impactor as a single unit, facilitating quick sample turn-around times if multiple trays are used. For accomplishing drug recovery, the user can add up to approximately 40 mL of an appropriate solvent directly to the cups. Another unique feature is a micro-orifice collector (MOC) that captures in a collection cup extremely small particles normally collected on the final filter in other impactors. The particles captured in the MOC cup can be analyzed in the same manner as the particles collected in the other impactor stage cups. The user-friendly features and the aerodynamic design principles together provide an impactor well suited to the needs of the inhaler testing community.
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