SUMMARY Activation of NF-kB induces mesenchymal (MES) trans-differentiation and radio-resistance in glioma stem cells (GSCs), but molecular mechanisms for NF-kB activation in GSCs are currently unknown. Here we report that mixed lineage kinase 4 (MLK4) is overexpressed in MES but not proneural (PN) GSCs. Silencing MLK4 suppresses self-renewal, motility, tumorigenesis, and radio-resistance of MES GSCs via a loss of the MES signature. MLK4 binds and phosphorylates the NF-κB regulator IKKα, leading to activation of NF-κB signaling in GSCs. MLK4 expression is inversely correlated with patient prognosis in MES, but not PN high-grade gliomas. Collectively, our results uncover MLK4 as an upstream regulator of NF-kB signaling and a potential molecular target for the MES subtype of GBMs.
Reuse of disposable personal protective equipment is traditionally discouraged, yet in times of heightened medical applications such as the SARS CoV-2 pandemic, it can be difficult to obtain. In this article we examine the reuse of disposable gowns with respect to still providing personnel protection. XR7, a fluorescent powder, was used to track contamination of gowns after manipulation of rodent cages. Mouse cages were treated with XR7 prior to manipulations. Disposable gowns were labeled for single person use and hung in common procedure spaces within the vivarium between usages. A simulated rack change of 140 cages was completed using XR7-treated cages. One individual changed all cages with a break occurring after the first 70 cages, requiring the gown to be removed and reused once. To simulate research activities, 5 individuals accessed 3 XR7-treated cages daily for 5 d. Each mouse in the XR7-treated cages was manipulated at least once before returning cages to the housing room. Disposable gowns were reused 5 times per individual. Gowns, gloves, clothing, bare arms, and hands were scanned for fluorescence before and after removing PPE. Fluorescence was localized to gloves and gown sleeves in closest contact with animals and caging. No fluorescence was detected on underlying clothing, or bare arms and hands after removing PPE. Fluorescence was not detected in procedure spaces where gowns were hung. The lack of fluorescence on personnel or surfaces indicate that gowns can be reused 1 time for routine husbandry tasks and up to 5 times for research personnel. A method for decontamination of used gowns using Vaporized Hydrogen Peroxide (VHP) was also validated for use in areas where animals are considered high risk such as quarantine, or for fragile immunocompromised rodent colonies.
Aged cotton rats (Sigmodon hispidus) from an established breeding colony displayed signs of spontaneous exophthalmos. Of a total of 118 colony animals that were older than 6 mo of age, 37 (31%) displayed signs of exophthalmos. These rats were clinically healthy and had no other signs of disease. Ophthalmic exams, molecular and microbiologic testing, and histopa- thology were performed to determine the cause of the exophthalmos and to provide appropriate treatment. Environmental monitoring records were also reviewed for vivarium rooms in which the cotton rats were housed. Histopathology findings supported that the exophthalmos in these cotton rats was secondary to retro-orbital thrombosis associated with cardiomyopathy. The exophthalmic eyes were treated by either removal of the affected eye (enucleation) or surgical closure of the eyelids (temporary tarsorraphy). Enucleation of the exophthalmic eye was the best intervention for these aged cotton rats. These findings demonstrate the potential for a high incidence of ocular problems occurring secondary to cardiomyopathy in aged cotton rats. Enucleation as a therapeutic intervention for exophthalmic eyes in aged cotton rats prolongs the morbidity-free time span during which these aged animals can be used experimentally.
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