Differential changes in junctional complex proteins suggest the ependymal lining as the main source of leukocyte infiltration into ventricles in murine neurocysticercosis

Alvarez, Jorge Iván; Teale, Judy M.

doi:10.1016/j.jneuroim.2007.05.005

Cited by 43 publications

(52 citation statements)

References 35 publications

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“…Later post infection times of 3-5 wks showed increasing numbers of leukocytes expressing active MMPs (Table 1). Consistent with our previous results indicating infection-induced breaks in the ependyma as a source of inflammatory infiltrates in ventricles [3], Fig 7F shows large numbers of CD11b + cells (presumably macrophages) that have appeared to cross through the ependymal lining (demarcated by cadherin staining) into the ventricle. Also shown is the active expression of MMP-12 (Fig 7G), MMP-8 (Fig 7H), and MMP-2 ( Fig 7I).…”

Section: Active Mmps Are Expressed In Leukocytes Infiltrating Ventricsupporting

confidence: 91%

“…Leukocyte extravasation through the CPs is relatively low during murine NCC [2,3]. Of the cells that appear to be exiting the CPs, expression of MMP-12 ( Fig 7C) and MMP-16 was found mainly exhibiting collagen activity, and to a lesser extent MMP-3 exhibiting gelatin cleavage.…”

Section: Active Mmps Are Expressed In Leukocytes Infiltrating Ventricmentioning

confidence: 95%

“…Our studies in a mouse model of NCC have revealed differential breakdown of the BBB and the blood-cerebrospinal fluid barrier (BCB) dependant upon the vascular bed, accumulation of blood derived leukocytes, production of inflammatory cytokines and differential expression of MMP-9 [2][3][4]. Many of these pathophysiological conditions have been described in other CNS disorders, and MMPs have been linked to associated mechanisms [28,43,63].…”

Section: Introductionmentioning

confidence: 93%

“…In fact, this is the normal entry point in the uninfected brain. We have recently shown that leukocytes predominately access the ventricles during infection by disruption of pial vessels in the subependymal area followed by migration of leukocytes into ventricles through a compromised ependymal lining, the epithelial layer that surrounds the ventricle [3]. Therefore, we evaluated the expression and activity of MMPs to assess their involvement in leukocyte migration into ventricles.…”

Section: Active Mmps Are Expressed In Leukocytes Infiltrating Ventricmentioning

confidence: 99%

“…Particular emphasis was given to the expression of MMPs in leukocytes extravasating different types of vasculature as the kinetics of infiltration differs among distinct areas of the mouse brain [2][3][4]. Total mRNA isolated from brains after different post infection times was analyzed using a macroarray specific for MMPs.…”

Section: Introductionmentioning

confidence: 99%

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Multiple expression of matrix metalloproteinases in murine neurocysticercosis: Implications for leukocyte migration through multiple central nervous system barriers

Alvarez

Teale

2008

Brain Research

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During the course of murine neurocysticercosis (NCC), disruption of the unique protective barriers in the central nervous system (CNS) is evidenced by extravasation of leukocytes. This process varies according to the anatomical sites and diverse vascular beds analyzed. To examine mechanisms involved in the observed differences, the expression and activity of eight matrix metalloproteinases (MMPs) were analyzed in a murine model of NCC. The mRNA expression of the MMPs studied was upregulated as a result of infection, and active MMPs were mainly detected in leukocytes migrating into the brain. Polarized expression and gelatinolytic activity of several MMPs were identified in immune cells extravasating pial vessels as early as 1 day post infection. In contrast, leukocytes expressing active MMPs and extravasating parenchymal vessels were not observed until 5 weeks post infection. In ventricular areas, most of the MMP activity was detected in leukocytes traversing the ependyma from leptomeningeal infiltrates. In addition, immune cells continued to express active MMPs after exiting vessels suggesting that enzymatic activity of MMPs is not just required for diapedesis. These results correlate with our previous studies showing differential kinetics in the disruption of the CNS barriers upon infection and help document the important role of MMPs during leukocyte infiltration and inflammation.

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Section: Active Mmps Are Expressed In Leukocytes Infiltrating Ventricsupporting

confidence: 91%

Section: Active Mmps Are Expressed In Leukocytes Infiltrating Ventricmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 93%

Section: Active Mmps Are Expressed In Leukocytes Infiltrating Ventricmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Multiple expression of matrix metalloproteinases in murine neurocysticercosis: Implications for leukocyte migration through multiple central nervous system barriers

Alvarez

Teale

2008

Brain Research

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Endocannabinoid system in the adult rat circumventricular areas: An immunohistochemical study

Suárez¹,

Romero-Zerbo²,

Rivera³

et al. 2010

J of Comparative Neurology

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Endocannabinoids (ECs) are important neuromodulators involved in a plethora of physiological processes such as modulation of synaptic transmission, neuroprotection, immune function, and neurodevelopment, among others. However, still lacking is a detailed study on the presence of this system in the circumventricular areas, brain structures controlling the interaction between cerebrospinal fluid and brain parenchyma. The aim of this work was to provide the anatomical basis supporting a functional role of ECs in the activity of circumventricular areas. To this end, an immunohistochemical study of the EC system in rat brain was performed. Receptors and synthesizing and degrading enzymes for ECs were widely distributed in rat ependyma and subependyma, marginal glia, and circumventricular organs (CVOs) such as the choroid plexus, subfornical organ, subcommissural organ, median eminence, and area postrema. These zones constitute barrier systems between the brain parenchyma and the ventricular or subarachnoid cerebrospinal fluid (CSF) and between the extracellular hemal milieu of CVOs and the brain parenchyma or the CSF. By immunohistochemistry and real-time polymerase chain reaction we found DAGLalpha, DAGLbeta, NAPE-PLD, MAGL, and FAAH in the ependyma. These finding suggest that the ependyma can release and clear ECs from the ventricular CSF. Subependymal astrocytes and tanycytes displayed DAGLalpha immunoreactivity but parenchymal astrocytes did not express EC-synthesizing enzymes, thus establishing a sharp distinction between these two astrocyte populations. CB1 was located in fibers innervating discrete subventricular zones such as the neurogenic striatal subventricular zone and the fourth ventricle. CB1 fibers also innervated some CVOs.

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Parvalbumin‐expressing ependymal cells in rostral lateral ventricle wall adhesions contribute to aging‐related ventricle stenosis in mice

Filice

Celio

Babalian

et al. 2017

J of Comparative Neurology

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Aging-associated ependymal-cell pathologies can manifest as ventricular gliosis, ventricle enlargement, or ventricle stenosis. Ventricle stenosis and fusion of the lateral ventricle (LV) walls is associated with a massive decline of the proliferative capacities of the stem cell niche in the affected subventricular zone (SVZ) in aging mice. We examined the brains of adult C57BL/6 mice and found that ependymal cells located in the adhesions of the medial and lateral walls of the rostral LVs upregulated parvalbumin (PV) and displayed reactive phenotype, similarly to injuryreactive ependymal cells. However, PV1 ependymal cells in the LV-wall adhesions, unlike injuryreactive ones, did not express glial fibrillary acidic protein. S100B1/PV1 ependymal cells found in younger mice diminished in the LV-wall adhesions throughout aging. We found that periventricular PV-immunofluorescence showed positive correlation to the grade of LV stenosis in nonaged mice (<10-month-old), and that the extent of LV-wall adhesions and LV stenosis was significantly lower in mid-aged (>10-month-old) PV-knock out (PV-KO) mice. This suggests an involvement of PV1 ependymal cells in aging-associated ventricle stenosis. Additionally, we observed a time-shift in microglial activation in the LV-wall adhesions between age-grouped PV-KO and wild-type mice, suggesting a delay in microglial activation when PV is absent from ependymal cells. Our findings implicate that compromised ependymal cells of the adhering ependymal layers upregulate PV and display phenotype shift to "reactive" ependymal cells in aging-related ventricle stenosis; moreover, they also contribute to the progression of LV-wall fusion associated with a decline of the affected SVZ-stem cell niche in aged mice. K E Y W O R D Saging, ependymal cell, lateral ventricle, parvalbumin, ventricle stenosis, RRID:AB_10000344, RRID: AB_2665495, RRID:AB_2315304, RRID:AB_2620025, RRID:AB_1555288, RRID:AB_221569, RRID:AB_221568, RRID:AB_839504, RRID:SCR_002526, RRID:SCR_002285, RRID:SCR_002798 | I N T R O D U C T I O NIn a previous article, we described the injury-triggered upregulation of the EF-hand calcium-binding protein parvalbumin (PV) in ependymal cells of the lateral ventricle (LV) (Szabolcsi & Celio, 2015). This study investigates the effects of aging on ependymal cells and the ependymalcell responses in aging-associated ventricle stenosis known for its deleterious effects on adult neurogenesis in old mice.Adult neurogenesis takes place in two regions of the mammalian brain: in the subgranular zone of the dentate gyrus (Kaplan & Hinds, 1977) and in the subventricular zone (SVZ) along the lateral wall of the rostral LV (Lois & Alvarez-Buylla, 1994). The SVZ supports neurogenesis by continuously generating new neurons that migrate to the olfactory bulb via the rostral migratory stream (Doetsch & Alvarez-Buylla, 1996). The SVZ is a neurogenic stem cell niche with a unique microenvironment consisting not only of neural stem cells (NSCs) but support 1 http://doc.rero.chPublished in "Jour...

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Differential changes in junctional complex proteins suggest the ependymal lining as the main source of leukocyte infiltration into ventricles in murine neurocysticercosis

Cited by 43 publications

References 35 publications

Multiple expression of matrix metalloproteinases in murine neurocysticercosis: Implications for leukocyte migration through multiple central nervous system barriers

Multiple expression of matrix metalloproteinases in murine neurocysticercosis: Implications for leukocyte migration through multiple central nervous system barriers

Endocannabinoid system in the adult rat circumventricular areas: An immunohistochemical study

Parvalbumin‐expressing ependymal cells in rostral lateral ventricle wall adhesions contribute to aging‐related ventricle stenosis in mice

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