Global alterations to the choroid plexus blood-CSF barrier in amyotrophic lateral sclerosis.

The choroid plexus (CP) is a highly vascularized structure located in the ventricles that forms the blood-CSF barrier (BCSFB) and separates the blood from the cerebrospinal fluid (CSF). In addition to its role as a physical barrier, the CP functions in CSF secretion, transport of nutrients into the central nervous system (CNS) and a gated point of entry of circulating immune cells into the CNS. Aging and neurodegeneration have been reported to affect CP morphology and function and increase protein leakage from blood to the CSF. Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disease associated with both upper and lower motor neuron loss, as well as altered proteomic and metabolomic signatures in the CSF. The role of the BCSFB and the CP in ALS is unknown. Here we describe a transcriptomic and ultrastructural analysis of BCSFB and CP alterations in human postmortem tissues from ALS and non-neurologic disease controls. ALS-CP exhibited widespread disruptions in tight junctional components of the CP epithelial layer and vascular integrity. In addition, we detected loss of pericytes around ALS blood vessels, accompanied by activation of platelet aggregation markers vWF and Fibrinogen, reminiscent of vascular injury. To investigate the immune component of ALS-CP, we conducted a comprehensive analysis of cytokines and chemokine panels in CP lysates and found a significant down-regulation of M-CSF and V-CAM1 in ALS, as well as up-regulation of VEGF-A protein. This phenotype was accompanied by an infiltration of MERTK positive macrophages into the parenchyma of the ALS-CP when compared to controls. Taken together, we demonstrate widespread structural and functional disruptions of the BCSFB in human ALS increasing our understanding of the disease pathology and identifying potential new targets for ALS therapeutic development.

Immunohistochemistry of affected tissue may guide cGVHD treatment decisions.

Chronic graft-vs-host disease (cGVHD) myositis is a rare complication of hematopoietic SCT, for which the pathogenesis and optimal therapy are unclear. We performed immunohistochemistry on muscle biopsies from pediatric cGVHD myositis and typical cases of autoimmune dermatomyositis and polymyositis. The immunostaining pattern of cGVHD myositis was distinct from that of typical cases of autoimmunity. There was a high proportion of CD20+ and CD68+ cells, and the best therapeutic response was achieved with rituximab (anti-CD20). These results suggest that cGVHD myositis may be mediated by different leukocytes than similar autoimmune diseases and that treatment may be optimized by targeting the specific cellular infiltrates identified in affected tissue.

The varicella zoster virus vasculopathies: clinical, CSF, imaging, and virologic features.

BACKGROUND: Varicella zoster virus (VZV) vasculopathy produces stroke secondary to viral infection of cerebral arteries. Not all patients have rash before cerebral ischemia or stroke. Furthermore, other vasculitides produce similar clinical features and comparable imaging, angiographic, and CSF abnormalities. METHODS: We review our 23 published cases and 7 unpublished cases of VZV vasculopathy. All CSFs were tested for VZV DNA by PCR and anti-VZV IgG antibody and were positive for either or both. RESULTS: Among 30 patients, rash occurred in 19 (63%), CSF pleocytosis in 20 (67%), and imaging abnormalities in 29 (97%). Angiography in 23 patients revealed abnormalities in 16 (70%). Large and small arteries were involved in 15 (50%), small arteries in 11 (37%), and large arteries in only 4 (13%) of 30 patients. Average time from rash to neurologic symptoms and signs was 4.1 months, and from neurologic symptoms and signs to CSF virologic analysis was 4.2 months. CSF of 9 (30%) patients contained VZV DNA while 28 (93%) had anti-VZV IgG antibody in CSF; in each of these patients, reduced serum/CSF ratio of VZV IgG confirmed intrathecal synthesis. CONCLUSIONS: Rash or CSF pleocytosis is not required to diagnose varicella zoster virus (VZV) vasculopathy, whereas MRI/CT abnormalities are seen in almost all patients. Most patients had mixed large and small artery involvement. Detection of anti-VZV IgG antibody in CSF was a more sensitive indicator of VZV vasculopathy than detection of VZV DNA (p < 0.001). Determination of optimal antiviral treatment and benefit of concurrent steroid therapy awaits studies with larger case numbers.

Stretch-induced endothelin-1 production by astrocytes.

Astrocytes proliferate during central nervous system (CNS) development and then remain quiescent. However, at a site of brain injury, astrocytes re-enter the cell cycle and undergo complex biochemical/functional changes known as reactive gliosis. Gliosis is the most important histopathologic indicator of CNS injury, regardless of etiology. Endothelins (ETs) have powerful mitogenic effects on astrocytes and have recently been implicated in the induction of gliosis. Reactive astrocytes produce, store. secrete and bind endothelin-1 (ET-1). The stimuli responsible for activating ET production in astrocytes are unresolved. Because of the relationship between stretch and ET production in other cell types, and the observation that ET-1-positive reactive astrocytes appear in mechanically deformed regions, we are examining whether mechanical deformation affects ET-1 production. We expose mature rat astrocyte cultures to mechanical stress using flexible-bottomed culture plates. Mechanical stretch of quiescent, confluent cultures causes an increase in cytoplasmic Ca2+ and inositol trisphosphate (IP3), and a substantial increase in ET-1 production and secretion into the culture media.