Aniridia in Two Related Tennessee Walking Horses

Aniridia in horses is rare and has previously been reported to be genetically transmitted in Belgian horses and Quarter horses. This paper describes the defect in 2 related Tennessee Walking horses, with special reference to new findings regarding the molecular genetics of ocular development and how they might relate to equine aniridia. In addition to aniridia, these 2 horses possessed additional ocular abnormalities including cataracts and dermoid lesions. Euthanasia was elected, and the eyes were examined histologically. Iris hypoplasia, atypical dermoids, and cataracts were confirmed in both horses. Due to the heritability of aniridia in horses, breeding of affected animals is not recommended

Microarray Analysis Demonstrates a Role for Slug in Epidermal Homeostasis

Slug (Snail2) is a member of the Snail family of zinc-finger transcription factors with regulatory functions in development, tissue morphogenesis, and tumor progression. Little is known about Slug in normal adult tissue; however, a role for Slug in the skin was suggested by our previous observations of Slug expression in normal murine keratinocytes and Slug induction at wound margins. To study the impact of Slug in the skin, we compared patterns of gene expression in epidermis from Slug-null and wild-type mice. A total of 139 genes had significantly increased, and 109 genes had significantly decreased expression in Slug knockout epidermis. Altered expression of selected genes in Slug knockout epidermis was validated by real-time PCR and immunohistochemistry. Previously reported Slug targets were identified, in addition to novel genes, including cytokeratins, adhesion molecules, and extracellular matrix components. Functional classification of altered gene expression was consistent with a role for Slug in keratinocyte development and differentiation, proliferation, apoptosis, adhesion, motility, as well as angiogenesis and response to environmental stimuli. These results highlight the utility of genetic models to study the in vivo impact of regulatory factors in unperturbed skin and suggest that Slug has significant activities in the adult epidermis

Slug/Snai2 Is a Downstream Mediator of Epidermal Growth Factor Receptor-Stimulated Reepithelialization

Many peptide growth factors, including EGFR ligands, accelerate wound reepithelialization in vivo and in vitro. Furthermore, EGFR expression is transiently increased at wound margins, suggesting an active role for this receptor in wound repair. During reepithelialization of cutaneous wounds, keratinocytes display a phenotypic plasticity resembling aspects of epithelial–mesenchymal transformation. The transcription factor Slug/Snai2 is a regulator of epithelial–mesenchymal transformation during development, and we previously reported that Slug expression is elevated in keratinocytes bordering cutaneous wounds in vivo, ex vivo, and in vitro. In this study we provide evidence that Slug expression is necessary for an EGFR-stimulated reepithelialization response. Epidermal growth factor (EGF) induces Slug expression and the response to EGFR activation is more robust than to other receptor tyrosine kinase ligands. EGFR-stimulated reepithelialization is highly dependent on Slug, as demonstrated by the absence of EGF-stimulated outgrowth in explants derived from Slug null mice. In vitro reepithelialization stimulated by ectopic Slug expression was not impaired by an inhibitor of EGFR catalytic activity, suggesting that Slug is a downstream mediator of this EGFR-stimulated response. Our findings provide evidence that Slug is an essential component of the pathway leading to EGFR-mediated epithelial outgrowth

MRI ischemic and hemorrhagic lesions in arterial and venous territories characterize central nervous system intravascular lymphoma in dogs.

Intravascular lymphoma (IVL) is characterized by the proliferation of large malignant lymphocytes within the lumen of blood vessels. This retrospective, multi-center, case series study aimed to describe the MRI features of confirmed central nervous system IVL in dogs and compare them with histopathological findings. Medical record databases from seven veterinary centers were searched for cases of histologically confirmed IVL. Dogs were included if an MRI was performed. The MRI studies and histopathology samples were reviewed to compare the MRI changes with the histopathological findings. Twelve dogs met the inclusion criteria (12 brains and three spinal cords). Imaging of the brains revealed multifocal T2-weighted/FLAIR hyperintense and T1-weighted iso-hypointense lesions, with variable contrast enhancement; areas of abnormal diffusion both in arterial and venous territories in diffusion-weighted imaging; and meningeal enhancement. On gradient echo images (GRE), the changes comprised tubular susceptibility artifacts, consistent with the "susceptibility vessel sign", and additional variably sized/shaped intraparenchymal susceptibility artifacts. Spinal cord lesions presented as fusiform T2-weighted hyperintensities with scattered susceptibility artifacts on GRE and variable parenchymal and meningeal contrast enhancement. On histopathology, subarachnoid hemorrhages and neuroparenchymal areas of edema and necrosis, with or without hemorrhage, indicating ischemic and hemorrhagic infarctions, were found. These lesions were concurrent with severely dilated meningeal and parenchymal arteries and veins plugged by neoplastic lymphocytes and fibrin. Due to the unique angiocentric distribution of IVL, ischemic and hemorrhagic infarcts of variable chronicity affecting both the arterial and venous territories associated with thrombi formation can be detected on MRI