B. Mark Woerner scite author profile

The inflammatory response in the CNS begins with the movement of leukocytes across the blood-brain barrier in a multistep process that requires cells to pass through a perivascular space before entering the parenchyma. The molecular mechanisms that orchestrate this movement are not known. The chemokine CXCL12 is highly expressed throughout the CNS by microendothelial cells under normal conditions, suggesting it might play a role maintaining the blood-brain barrier. We tested this hypothesis in the setting of experimental autoimmune encephalomyelitis (EAE) by using AMD3100, a specific antagonist of the CXCL12 receptor CXCR4. We demonstrate that the loss of CXCR4 activation enhances the migration of infiltrating leukocytes into the CNS parenchyma. CXCL12 is expressed at the basolateral surface of CNS endothelial cells in normal spinal cord and at the onset of EAE. This polarity is lost in vessels associated with an extensive parenchymal invasion of mononuclear cells during the peak of disease. Inhibition of CXCR4 activation during the induction of EAE leads to loss of the typical intense perivascular cuffs, which are replaced with widespread white matter infiltration of mononuclear cells, worsening the clinical severity of the disease and increasing inflammation. Taken together, these data suggest a novel anti-inflammatory role for CXCL12 during EAE in that it functions to localize CXCR4-expressing mononuclear cells to the perivascular space, thereby limiting the parenchymal infiltration of autoreactive effector cells.

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Fungal pathogen protection in potato by expression of a plant defensin peptide

Gao

et al. 2000

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Defensins are small cysteine-rich peptides with antimicrobial activity. We demonstrate that the alfalfa antifungal peptide (alfAFP) defensin isolated from seeds of Medicago sativa displays strong activity against the agronomically important fungal pathogen Verticillium dahliae. Expression of the alfAFP peptide in transgenic potato plants provides robust resistance in the greenhouse. Importantly, this resistance is maintained under field conditions. There have been no previous demonstrations of a single transgene imparting a disease resistance phenotype that is at least equivalent to those achieved through current practices using fumigants.

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Cyclooxygenase 2‐dependent prostaglandin E₂ modulates cartilage proteoglycan degradation in human osteoarthritis explants

Hardy¹,

Seibert²,

Manning³

et al. 2002

Arthritis & Rheumatism

289

210

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Objective To examine cyclooxygenase‐2 (COX‐2) enzyme expression, its regulation by interleukin‐1β (IL‐1β), and the role of prostaglandin E2 (PGE2) in proteoglycan degradation in human osteoarthritic (OA) cartilage. Methods Samples of human OA articular cartilage, meniscus, synovial membrane, and osteophytic fibrocartilage were obtained at knee arthroplasty and cultured ex vivo with or without IL‐1β and COX inhibitors. COX expression was evaluated by immunohistochemistry and Western blot analysis. The enzymatic activity of COX was measured by conversion of arachidonic acid to PGE2. Cartilage degradation was evaluated by measuring the accumulation of sulfated glycosaminoglycans in the medium. Results IL‐1β induced robust expression of COX‐2 and PGE2 in OA meniscus, synovial membrane, and osteophytic fibrocartilage explants, whereas low levels were produced in OA articular cartilage. IL‐1β also induced cartilage proteoglycan degradation in OA synovial membrane‐cartilage cocultures. Increased proteoglycan degradation corresponded to the induction of COX‐2 protein expression in, and PGE2 production from, the synovial membrane. Dexamethasone, neutralizing IL‐1β antibody, or the selective COX‐2 inhibitor, SC‐236, attenuated both the IL‐1β‐induced PGE2 production and cartilage proteoglycan degradation in these cocultures. The addition of PGE2 reversed the inhibition of proteoglycan degradation caused by SC‐236. Conclusion IL‐1β‐induced production of COX‐2 protein and PGE2 was low in OA articular cartilage compared with that in the other OA tissues examined. IL‐1β‐mediated degradation of cartilage proteoglycans in OA synovial membrane‐cartilage cocultures was blocked by the selective COX‐2 inhibitor, SC‐236, and the effect of SC‐236 was reversed by the addition of exogenous PGE2. Our data suggest that induction of synovial COX‐2‐produced PGE2 is one mechanism by which IL‐1β modulates cartilage proteoglycan degradation in OA.

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Pathological Expression of CXCL12 at the Blood-Brain Barrier Correlates with Severity of Multiple Sclerosis

McCandless

Piccio

Woerner

et al. 2008

The American Journal of Pathology

176

150

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Dysregulation of blood-brain barrier (BBB) function and transendothelial migration of leukocytes are essential components of the development and propagation of active lesions in multiple sclerosis (MS). Animal studies indicate that polarized expression of the chemokine CXCL12 at the BBB prevents leukocyte extravasation into the central nervous system (CNS) and that disruption of CXCL12 polarity promotes entry of autoreactive leukocytes and inflammation. In the present study, we examined expression of CXCL12 and its receptor, CXCR4, within CNS tissues from MS and non-MS patients. Immunohistochemical analysis of CXCL12 expression at the BBB revealed basolateral localization in tissues derived from non-MS patients and at uninvolved sites in tissues from MS patients. In contrast, within active MS lesions, CXCL12 expression was redistributed toward vessel lumena and was associated with CXCR4 activation in infiltrating leukocytes, as revealed by phospho-CXCR4-specific antibodies. Quantitative assessment of CXCL12 expression by the CNS microvasculature established a positive correlation between CXCL12 redistribution, leukocyte infiltration, and severity of histological disease. These results suggest that CXCL12 normally functions to localize infiltrating leukocytes to perivascular spaces, preventing CNS parenchymal infiltration. In the patient cohort studied, altered patterns of CXCL12 expression at the BBB were specifically associated with MS, possibly facilitating trafficking of CXCR4-expressing mononuclear cells into and out of the perivascular space and leading to progression of disease.

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B. Mark Woerner

COX-2 is expressed in human pulmonary, colonic, and mammary tumors

CXCL12 Limits Inflammation by Localizing Mononuclear Infiltrates to the Perivascular Space during Experimental Autoimmune Encephalomyelitis

Fungal pathogen protection in potato by expression of a plant defensin peptide

Cyclooxygenase 2‐dependent prostaglandin E₂ modulates cartilage proteoglycan degradation in human osteoarthritis explants

Pathological Expression of CXCL12 at the Blood-Brain Barrier Correlates with Severity of Multiple Sclerosis

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B. Mark Woerner

COX-2 is expressed in human pulmonary, colonic, and mammary tumors

CXCL12 Limits Inflammation by Localizing Mononuclear Infiltrates to the Perivascular Space during Experimental Autoimmune Encephalomyelitis

Fungal pathogen protection in potato by expression of a plant defensin peptide

Cyclooxygenase 2‐dependent prostaglandin E2 modulates cartilage proteoglycan degradation in human osteoarthritis explants

Pathological Expression of CXCL12 at the Blood-Brain Barrier Correlates with Severity of Multiple Sclerosis

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Cyclooxygenase 2‐dependent prostaglandin E₂ modulates cartilage proteoglycan degradation in human osteoarthritis explants