Roscoe Atkinson scite author profile

BACKGROUND & AIMS Capillarization, characterized by loss of differentiation of liver sinusoidal endothelial cell (LSEC), precedes the onset of hepatic fibrosis. We investigated whether restoring differentiation to LSEC in liver affects their interactions with hepatic stellate cells (HSCs) and thereby promotes quiescence of HSCs and regression of fibrosis. METHODS Rat LSECs were cultured with inhibitors and/or agonists and examined by scanning electron microscopy for fenestrae in sieve plates. Cirrhosis was induced in rats using thioacetamide, followed by administration of BAY 60-2770, an activator of soluble guanylate cyclase (sGC). Fibrosis was assessed by Sirius red staining; expression of α-smooth muscle actin was measured by immunoblot analysis. RESULTS Maintenance of LSEC differentiation requires vascular endothelial growth factor-A stimulation of nitric oxide (NO)-dependent signaling (via sGC and cGMP) and NO-independent signaling. In rats with thioacetamide-induced cirrhosis, BAY 60-2770 accelerated the complete reversal of capillarization (restored differentiation of LSEC) without directly affecting activation of HSC or fibrosis. Restoration of differentiation to LSEC led to quiescence of HSC and regression of fibrosis, in the absence of further exposure to BAY 60-2770. Activation of sGC with BAY 60-2770, prevented progression of cirrhosis, despite continued administration of thioacetamide. CONCLUSIONS Differentiation of LSEC has an important role in activation of HSC and the fibrotic process in rats.

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Mechanisms of Central Nervous System Viral Persistence: the Critical Role of Antibody and B Cells

Ramakrishna

et al. 2002

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Contributions of humoral and cellular immunity in controlling neurotropic mouse hepatitis virus persistence within the CNS were determined in B cell-deficient JHD and syngeneic H-2d B cell+ Ab-deficient mice. Virus clearance followed similar kinetics in all mice, confirming initial control of virus replication by cellular immunity. Nevertheless, virus reemerged within the CNS of all Ab-deficient mice. In contrast to diminished T cell responses in H-2b B cell-deficient μMT mice, the absence of B cells or Ab in the H-2d mice did not compromise expansion, recruitment into the CNS, or function of virus-specific CD4+ and CD8+ T cells. The lack of B cells and lymphoid architecture thus appears to manifest itself on T cell responses in a genetically biased manner. Increasing viral load did not enhance frequencies or effector function of virus-specific T cells within the CNS, indicating down-regulation of T cell responses. Although an Ab-independent antiviral function of B cells was not evident during acute infection, the presence of B cells altered CNS cellular tropism during viral recrudescence. Reemerging virus localized almost exclusively to oligodendroglia in B cell+ Ab-deficient mice, whereas it also replicated in astrocytes in B cell-deficient mice. Altered tropism coincided with distinct regulation of CNS virus-specific CD4+ T cells. These data conclusively demonstrate that the Ab component of humoral immunity is critical in preventing virus reactivation within CNS glial cells. B cells themselves may also play a subtle role in modulating pathogenesis by influencing tropism.

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Type I Interferons Are Essential in Controlling Neurotropic Coronavirus Infection Irrespective of Functional CD8 T Cells

Ireland

Stohlman

Hinton

et al. 2008

J Virol

133

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Characterisation and Classification of the Neural Anatomy in the Human Hip Joint

Johnson²,

et al. 2012

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Hip arthroscopy remains a useful surgical intervention for labral injuries. The literature has predominantly focused on structural and vascular considerations of the hip joint, with few studies examining the neurohistology of the surrounding periarticular tissues. We mapped and identified the periarticular neural anatomy, to identify the presence of sensory nerve fibres and mechanoreceptors within the hip joint. Eight human cadaveric hips were dissected into a total of ten specimens per hip. Histological staining was used to identify neural structures taken from the superolateral, anterior, inferior, and posterior positions of the hip joint. The frozen sections were analyzed by light microscopy to calculate relative concentrations of mean neural fibres per high power field (mnf/hpf). Neural end organs were found in the hip capsule, acetabular labrum, ligamentum teres and transverse acetabular ligament. The highest levels of mechanoreceptors were found in the superolateral aspect of the hip capsule (9.6 mnf/hpf). The labrum showed highest levels of sensory fibres (3.4 mnf/hpf) and mechanoreceptors (4.3mnf/hpf) within the anterior zone. Sensory fibres and mechanoreceptors densely populate the acetabular labrum, capsule and transverse acetabular ligament. The anterior zone of the labrum contained the highest relative concentration of sensory fibres, specifically Ruffini corpuscles.

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CNS viral infection diverts homing of antibody‐secreting cells from lymphoid organs to the CNS

et al. 2006

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Neurotropic coronavirus infection of mice results in acute encephalomyelitis followed by viral persistence. Whereas cellular immunity controls acute infection, humoral immunity regulates central nervous system (CNS) persistence. Maintenance of serum Ab was correlated with tissue distribution of virus-specific Ab-secreting cells (ASC). Although virus-specific ASC declined in cervical lymph node and spleen after infectious virus clearance, virus-specific serum Ab was sustained at steady levels, with a delay in neutralizing Ab. Virus-specific ASC within the CNS peaked rapidly 1 wk after control of infectious virus and were retained throughout chronic infection, consistent with intrathecal Ab synthesis. Surprisingly, frequencies of ASC in the BM remained low and only increased gradually. Nevertheless, virus-specific ASC induced by peripheral infection localized to both spleen and BM. The data suggest that CNS infection provides strong stimuli to recruit ASC into the inflamed tissue through sustained up-regulation of the CXCR3 ligands CXCL9 and CXCL10. Irrespective of Ag deprivation, CNS retention of ASC coincided with elevated BAFF expression and ongoing differentiation of class II + to class II -CD138 + CD19 + plasmablasts. These results confirm the CNS as a major ASCsupporting environment, even after resolution of viral infection and in the absence of chronic ongoing inflammation. IntroductionThe preeminent goal of the immune system is to eliminate pathogens and establish immunological memory [1]. Both T cells and Ab participate in eliminating a variety of pathogens; however, sustained serum Ab is an important criteria for many vaccination strategies, as they provide the first line of defense against re-infection [2]. Upon Ag encounter in regional lymph nodes, B cells undergo clonal expansion in extrafollicular foci and within germinal centers [3,4].Rapidly activated B cells secrete low-affinity Ab but can undergo isotype switching and limited BCR hypermutation as they differentiate into plasmablasts [3]. In the milieu of accessory cells and cytokines, germinal center B cells undergo affinity maturation and ultimately differentiate into both Ab-secreting cells (ASC) and memory B cells. As Ag is depleted, ASC and memory B cells are detected with increasing frequency in BM [2], where both stromal cells and other resident cells provide soluble as well as contact-dependent survival signals, including CXCL12 and BAFF [5]. Ab secretion by terminally differentiated plasma cells is independent of both Ag and T cell regulation [2,6]. Long-lived ASC in BM and spleen maintain serum Ab, thus providing protective immunity to re-infection, sometimes for the [4,6]. In contrast to Ag encountered in the periphery, the regulation of B cell activation by Ag sequestered within the central nervous system (CNS) is less clear. The absence of dedicated lymphatic drainage and the presence of the blood brain barrier (BBB) limits Ag transport from the CNS into secondary lymphoid tissue as well as trafficking of both cells and macromolecule...

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Roscoe Atkinson

Role of Differentiation of Liver Sinusoidal Endothelial Cells in Progression and Regression of Hepatic Fibrosis in Rats

Mechanisms of Central Nervous System Viral Persistence: the Critical Role of Antibody and B Cells

Type I Interferons Are Essential in Controlling Neurotropic Coronavirus Infection Irrespective of Functional CD8 T Cells

Characterisation and Classification of the Neural Anatomy in the Human Hip Joint

CNS viral infection diverts homing of antibody‐secreting cells from lymphoid organs to the CNS

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