43 SARS-CoV-2 pulmonary abnormalities in macaques Finch et al. 3 Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is causing an 44 exponentially increasing number of coronavirus disease 19 (COVID-19) cases 45 globally. Prioritization of medical countermeasures for evaluation in randomized 46 clinical trials is critically hindered by the lack of COVID-19 animal models that 47 enable accurate, quantifiable, and reproducible measurement of COVID-19 48 pulmonary disease free from observer bias. We first used serial computed 49 tomography (CT) to demonstrate that bilateral intrabronchial instillation of SARS-50 CoV-2 into crab-eating macaques (Macaca fascicularis) results in mild-to-moderate 51 lung abnormalities qualitatively characteristic of subclinical or mild-to-moderate 52 COVID-19 (e.g., ground-glass opacities with or without reticulation, paving, or 53 alveolar consolidation, peri-bronchial thickening, linear opacities) at typical 54 locations (peripheral>central, posterior and dependent, bilateral, multi-lobar). We 55 then used positron emission tomography (PET) analysis to demonstrate increased 56 FDG uptake in the CT-defined lung abnormalities and regional lymph nodes. 57 PET/CT imaging findings appeared in all macaques as early as 2 days post-58 exposure, variably progressed, and subsequently resolved by 6-12 days post-59 exposure. Finally, we applied operator-independent, semi-automatic quantification 60 of the volume and radiodensity of CT abnormalities as a possible primary endpoint 61 for immediate and objective efficacy testing of candidate medical countermeasures. 62 63
Summary
The Long INterspersed Element-1 (LINE-1 or L1) retrotransposition assay has facilitated the discovery and characterization of active (i.e., retrotransposition-competent) LINE-1 sequences from mammalian genomes. In this assay, an engineered LINE-1 containing a retrotransposition reporter cassette is transiently transfected into a cultured cell line. Expression of the reporter cassette, which occurs only after a successful round of retrotransposition, allows the detection and quantification of the LINE-1 retrotransposition efficiency. This assay has yielded insight into the mechanism of LINE-1 retrotransposition. It also has provided a greater understanding of how the cell regulates LINE-1 retrotransposition and how LINE-1 retrotransposition impacts the structure of mammalian genomes. Below, we provide a brief introduction to LINE-1 biology and then detail how the LINE-1 retrotransposition assay is performed in cultured mammalian cells.
This study extends the spectrum of phenotypes associated with FIG4 mutations to include cortical malformation associated with seizures and psychiatric manifestations, in addition to the previously described Charcot-Marie-Tooth disease type 4J and Yunis-Varón syndrome.
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