Margaret Ayers scite author profile

HSV infects skin or mucosal epithelium as well as entering the sensory nerves and ganglia. We have used TCR-transgenic T cells specific for the immunodominant class I-restricted determinant from HSV glycoprotein B (gB) combined with a flank zosteriform model of infection to examine the ability of CD8+ T cells to deal with infection. During the course of zosteriform disease, virus rapidly spreads from the primary inoculation site in the skin to sensory dorsal root ganglia and subsequently reappears in the distal flank. Virus begins to be cleared from all sites about 5 days after infection when gB-specific CD8+ T cells first appear within infected tissues. Although activated gB-specific effectors can partially limit virus egress from the skin, they do so only at the earliest times after infection and are ineffective at halting the progression of zosteriform disease once virus has left the inoculation site. In contrast, these same T cells can completely clear ongoing lytic replication if transferred into infected immunocompromised RAG-1−/− mice. Therefore, we propose that the role of CD8+ T cells during the normal course of disease is to clear replicating virus after infection is well established rather than limit the initial spread of HSV from the primary site of inoculation.

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The Effects of Ethylene Dimethane Suiphonate (EDS) on Rat Leydig Cells: Evidence to Support a Connective Tissue Origin of Leydig Cells1

Jackson

O'Leary

Ayers

et al. 1986

151

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Ethylene dimethane sulphonate (DS) administered to adult male rats in a single dose of 75 mg/kg body weight results in a rapid destruction of Leydig cells which, in turn, is associated with a marked decline in levels of serum testosterone. For 24-72 h after treatment with EDS (post-EDS) the Leydig cells undergo degenerative changes consisting of chromatin condensation and cytoplasmic vacuolation, and testicular macrophages progressively remove Leydig cells from the intertubular tissue by phagocytosis. This results in the total absence of Leydig cells on Days 7-14 and the absence of any detectable specific 125I-hCG binding to testis homogenates. Associated with the low levels of serum testosterone, levels of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in serum rise, LH to levels found in castrate rats. Morphometric and 125I-hCG binding studies indicate that a new generation of Leydig cells develop from Day 21 and reach control levels by Day 49. Morphologic observations suggest that the Leydig cells arise by differentiation from a pool of connective tissue cells that includes fibroblasts, lymphatic endothelial cells and pericytes. The new Leydig cells, which appear around Day 21 post-EDS, have the features of fetal Leydig cells. The latter appear to transform into Leydig cells typical of normal adult rats between 35-49 days post-EDS. The differentiation of new Leydig cells is associated with a reestablishment of normal levels of testosterone 21 days post-EDS. Serum LH and FSH return to normal at 28 days and 49 days respectively.

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Astrocyte‐associated axonal damage in pre‐onset stages of experimental autoimmune encephalomyelitis

Wang

Ayers

Catmull

et al. 2005

Glia

100

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Recent studies of axon-glia and glia-glia communication have emphasized interactivity and interdependence between central nervous system (CNS) components. Concurrently, data from imaging, biochemical, and morphological studies have changed the view of multiple sclerosis (MS) from a neuroinflammatory condition with primary demyelination to one in which cumulative axonal damage drives progression. We therefore studied axonal damage in the context of inflammation and glial responses, from the pre-clinical to onset stage of murine experimental autoimmune encephalomyelitis (EAE), an established MS model. We report three major findings: (1) the first evidence of axonal injury before significant T-cell entry into the parenchyma, (3) coincidence of the earliest manifestation of axonal damage and astrocytic responses, and (3) an association between accumulation of axonal and astrocytic changes and specific forms of MS. These data demonstrate the relationship between the initiation of axonal injury and early inflammation. Significantly, we show that, in common with a growing number of neurodegenerative conditions, the pathology of murine EAE is characterized by early active contribution from astrocytes. This marks a change in the understanding of the role of astrocytes in MS pathogenesis and has important implications for the development of neuroprotective strategies.

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Onion bulb neuropathy in the trembler mouse: A model of hypertrophic interstitial neuropathy (Dejerine-Sottas) in man

1973

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The polypeptides of isolated brain 10nm filaments and their association with polymerized tubulin

Thorpe¹,

Delacourte²,

Ayers³

et al. 1979

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Brain 10 nm filaments were isolated from bovine, rabbit and rat brains by a modification of an existing procedure. The overall polypeptide composition of these preparations was similar to that previously reported for brain neurofilaments. In addition to the major polypeptide component, which has mol. wt. approx. 50 000, three other polypeptides with chain mol. wts. approx. 210 000, 155 000 and 70 000, which correspond to peripheral-nerve neurofilament polypeptides, were consistently found to be present. The mol. wt.-50 000 species was found to be heterogeneous and may contain a component derived from the mol. wt. 70 000 polypeptide. The three higher-molecular-weight polypeptides did not appear to be obviously homologous or to be homologous with myosin or Myxicola neurofilament polypeptides. These same three higher-molecular-weight components were shown to be identical with the polypeptides probably responsible for the 10 nm filaments formed during the early cycles of the tubulin-purification protocol.

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Margaret Ayers

Herpes Simplex Virus-Specific CD8+ T Cells Can Clear Established Lytic Infections from Skin and Nerves and Can Partially Limit the Early Spread of Virus after Cutaneous Inoculation

The Effects of Ethylene Dimethane Suiphonate (EDS) on Rat Leydig Cells: Evidence to Support a Connective Tissue Origin of Leydig Cells1

Astrocyte‐associated axonal damage in pre‐onset stages of experimental autoimmune encephalomyelitis

Onion bulb neuropathy in the trembler mouse: A model of hypertrophic interstitial neuropathy (Dejerine-Sottas) in man

The polypeptides of isolated brain 10nm filaments and their association with polymerized tubulin

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