The significance of caveolin-1, a major constituent of caveolae, and the tight junction proteins occludin and claudin-5 in early blood-brain barrier (BBB) breakdown was assessed by sequential demonstration of the expression of these proteins over a period of 12 h to 6 days post-lesion in the rat cortical cold injury model. Pial and intracerebral vessels of control rats showed punctuate endothelial immunoreactivity for caveolin-1 and caveolin-2, while claudin-5 and occludin were localized as longitudinal strands in endothelium. During the early phase of BBB breakdown following injury at 12 h and on day 2, western blot analyses detected a significant increase in caveolin-1 expression at the lesion site while immunohistochemistry showed that the caveolin-1 increase was localized to the endothelium of lesion vessels. Decreased expression of occludin occurred at the lesion site only on days 2 and 4 post-lesion while claudin-5 expression was decreased only on day 2. Dual labeling for fibronectin, a marker of BBB breakdown, and caveolin-1 or the tight junction proteins demonstrated that only lesion vessels with BBB breakdown showed a marked increase of caveolin-1, loss of occludin and reduced localization of claudin-5. The issue whether these alterations precede or follow BBB breakdown is uncertain; however, increased expression of caveolin-1 preceded the decreased expression of occludin and claudin-5. Thus caveolae and caveolin-1 have an important role in early BBB breakdown and could be potential therapeutic targets in the control of early brain edema.
Normal intracerebral and pial vessels show constitutive expression of angiopoietin (Ang) 1 in endothelium while weak Ang2 immunoreactivity is present in occasional vessels. In the early phase postinjury, blood-brain barrier (BBB) breakdown at the lesion site is associated with decreased endothelial Ang1 and increased Ang2 expression, raising the possibility that Ang2 may have a role in early BBB breakdown. In order to determine whether Ang2 can cause BBB breakdown, the effect of recombinant Ang2 on cerebrovascular permeability to horseradish peroxidase (HRP) was studied in normal rat cortex. As hypothesized, Ang2 produced significant BBB breakdown to HRP as compared with vehicle-injected control rats. Since Ang2 is reported to have proapoptotic activity, the possibility that Ang2 may be associated with endothelial apoptosis was investigated in the rat cortical cold injury model over a period of 6 h to 6 days postinjury. Perilesion and pial vessels showed evidence of endothelial apoptosis as demonstrated by active Caspase-3 localization and TUNEL staining. Dual labeling for Ang proteins and active Caspase-3 demonstrated endothelial colocalization of Ang2 with active caspase-3. These data suggest that following injury, Ang2 may play a role in BBB breakdown of perilesional vessels, and it may also be a factor in endothelial cell apoptosis that occurs at days 1 and 2 following the injury.
A systemic inflammatory response (SIR) occurs prior to and during the treatment of severe diabetic ketoacidosis (DKA). IL-1β, TNF-α and C5b-9 are components of SIR and have been speculated to be involved in the clinical brain edema (BE) of DKA. We studied IL-1β, TNF-α, C5b-9, inducible nitric oxide (iNOS), ICAM-1, IL-10 and Hsp70 expression in the brains of two patients who died as the result of clinical BE during the treatment of DKA. IL-1β was strongly expressed in the choroid plexus epithelium (CPE) and ependyma, and to a lesser extent in the hippocampus, caudate, white matter radiation of the pons, molecular layer of the cerebellum and neurons of the cortical gray matter. TNF-α was expressed to a lesser extent than IL-1 β, and only in the CP. C5b-9, previously shown to be deposited on neurons and oligodendrocytes, was found on CPE and ependymal cells. iNOS and ICAM-1 had increased expression in the CPE and ependyma. Hsp70 and IL-10 were also expressed in the CPE of the case with the shorter duration of treatment. Our data demonstrates the presence of a multifaceted neuroinflammatory cytotoxic insult of the CPE, which may play a role in the pathophysiology of the fatal brain edema of DKA.
The aim of this study was to identify and validate a sensitive, high-throughput, and cost-effective SARS-CoV-2 real-time RT-PCR assay to be used as a surveillance and diagnostic tool for SARS-CoV-2 in a university surveillance program. We conducted a side-by-side clinical evaluation of a newly developed SARS-CoV-2 multiplex assay (EZ-SARS-CoV-2 Real-Time RT-PCR) with the commercial TaqPath COVID-19 Combo Kit, which has an Emergency Use Authorization from the FDA. The EZ-SARS-CoV-2 RT-PCR incorporates two assays targeting the SARS-CoV-2 N gene, an internal control targeting the human RNase P gene, and a PCR inhibition control in a single reaction. Nasopharyngeal (NP) and anterior nares (AN) swabs were tested as individuals and pools with both assays and in the ABI 7500 Fast and the QuantStudio 5 detection platforms. The analytical sensitivity of the EZ-SARS-CoV-2 RT-PCR assay was 250 copies/ml or approximately 1.75 genome copy equivalents per reaction. The clinical performance of the EZ-SARS-CoV-2 assay was evaluated using NP and AN samples tested in other laboratories. The diagnostic sensitivity of the assay ranged between 94 and 96% across the detection platforms, and the diagnostic specificity was 94.06%. The positive predictive value was 94%, and the negative predictive value ranged from 94 to 96%. Pooling five NP or AN specimens yielded 93% diagnostic sensitivity. The overall agreement between these SARS-CoV-2 RT-PCR assays was high, supported by a Cohen's kappa value of 0.93. The EZ-SARS-CoV-2 RT-PCR assay performance attributes of high sensitivity and specificity with AN sample matrix and pooled upper respiratory samples support its use in a high-throughput surveillance testing program.
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