Induction of cell death in rat brain by a gliotoxic factor from cerebrospinal fluid in multiple sclerosis.

The cerebrospinal fluid (CSF) of multiple sclerosis (MS) patients contains a 17 kDa glycoproteic factor with gliotoxic properties in vitro. In order to study the physiopathological role of this gliotoxic factor in vivo, we have injected a partially purified preparation and appropriate controls in rat CSF and investigated whether it induces cell death in the rat central nervous system (CNS), 10 days and 3 months after injection. We used the TUNEL assay in association with specific immunohistochemistry to characterize dying cells in the gliotoxic factor- treated rat CNS.

Specific features of chronic astrocyte gliosis after experimental central nervous system (CNS) xenografting and in Wobbler neurological mutant CNS.

This study sets out to compare and contrast the astrocyte reaction in two unrelated experimental designs both resulting in marked chronic astrogliosis and natural motoneuron death in the wobbler mutant mouse and brain damage in the context of transplantation of xenogeneic embryonic CNS tissue into the striatum of newborn mice. The combined use of GFAP-labeling and confocal imaging allows the morphological comparison between these two different types of astrogliosis. Our findings demonstrate that, in mice, after tissue transplantation in the striatum, gliosis is not restricted to the regions of damage: it occurs not only near the site of transplantation, the striatum, but also in more distant regions of the CNS and particularly in the spinal cord.

Influence of factors secreted by wobbler astrocytes on neuronal and motoneuronal survival.

During late postnatal development, mice with the autosomal recessive wobbler mutation (wr/wr) develop motoneuron degeneration associated with astrogliosis in the spinal cord. In vitro, primary wobbler astrocytes are also affected, exhibiting abnormal cell-cell contacts. To characterize further the wobbler disease, we investigated the in vitro effects of wobbler astrocytes on primary neuronal cultures from the spinal cords of 15-day-old wild-type mouse and rat embryos.

Astrocyte proliferation induced by wobbler astrocyte conditioned medium is blocked by tumor necrosis factor-alpha (TNF-alpha) and interleukin-1beta (IL-1beta) neutralizing antibodies in vitro.

The wobbler mutant mouse (wr/wr) displays motoneuron degeneration and astrocyte reactivity in the spinal cord. We have previously reported that, in vitro, primary wobbler astrocytes display morphological and biochemical changes. In this report, we show that wobbler astrocyte conditioned medium enhances the in vitro proliferation of normal neonatal primary astrocytes.

[Gliotoxic factor and multiple sclerosis].

Multiple sclerosis in a disease of the central nervous system characterized by perivascular and periventricular lesions of the myelin and immune cell infiltrates and increased permeability of the blood-brain barrier. We have found a cytotoxic factor of the cerebrospinal fluid (CSF) specific for multiple sclerosis patients which has 2 main characteristic effects in vitro on primary or immortalized astrocyte cultures: (1) disruption of the gliofilament network of the cells; and (2) apoptotic cell death induction. Moreover, in vivo, intraventricular injections of minute amounts of partially purified gliotoxic factor in adult rats have striking effects on both the morphology and general organization of astrocytes in the entire brain and the permeability characteristics of the blood brain barrier, which becomes leaky to immunoglobulins.