Early formation of a GFAP-positive cell population in the ventricular zone during chicken brain development.

It is believed that neurons are generated near the surface of the embryonic cerebral ventricles, whereas glial cell proliferation occurs at sites distant to the ventricles. There is still uncertainty concerning the developmental stages when glial and neuronal cell lines diverge in the proliferative zone. The purpose of this study was to determine whether at early stages of chicken brain development during neurogenesis, cells from the astrocytic lineage are present in relevant amounts, where they are located in the neural tube, and to what extent brain regional differences exist. In this report, we demonstrate that specific markers for astrocytes [glial fibrillary acidic protein (GFAP) and glutamate-aspartate transporter (GLAST)] are expressed and translated during early neurogenesis in the developing chicken embryo at day 4 in the investigated brain regions. Between days 4 and 7, GFAP expression declines, and increases again after day 7. This profile is not entirely paralleled by GLAST expression, suggesting a later acquisition of this functional glial property. Comparison of different brain regions revealed that caudal parts of the developing chicken central nervous system are delayed in development with respect to the switch from neuronal to glial genesis. In conclusion, we show that gliogenesis occurs much earlier in the embryonic chicken brain than hitherto assumed.

17beta-estradiol and progesterone prevent cuprizone provoked demyelination of corpus callosum in male mice.

Sex hormones, for example, estrogen and progesterone, are thought to affect and delay progression of multiple sclerosis (MS) in pregnant women. Although both steroid hormones are neuroprotective in the brain and elevated during pregnancy, only estrogen was tested in clinical trials. To evaluate the role of 17beta-estradiol (E) and progesterone (P) in prevention demyelination, young adult male mice were fed with cuprizone for a defined time interval and simultaneously treated with steroids by repeated injections into the neck region. The status of myelination was analyzed by magnetic resonance imaging and conventional histological staining. The individual application of E and P resulted only in a moderate prevention of demyelination in the corpus callosum (CC). The combined treatment with both steroid hormones counteracted the process of demyelination. Expression of the mature (PLP and MBP) and premature (PDGF-alpha-R) oligodendrocyte markers were significantly increased after hormone application in the affected CC. In addition, both hormones stimulated astrogliosis and the expression of IGF-1. Microglial invasion in demyelinated CC was pronounced and additionally localized in the midline of CC after hormone treatment. These data show that sex steroids can protect the brain from demyelination and stimulate remyelination. It appears that only the administration of both hormones is fully effective. The beneficial steroid effect requires interactions with oligodendrocytes possibly by preventing their degeneration or recruitment from precursor cells which are stimulated to remyelinated fibers. The positive hormonal influence on myelination in the CNS may be a future therapeutically strategy for the treatment of MS.

Cuprizone treatment induces demyelination and astrocytosis in the mouse hippocampus.

Memory impairment is outstanding within the spectrum of cognitive deficits in multiple sclerosis (MS) patients. Demyelination has been reported in the hippocampus formation of MS patients. The degree of hippocampus lesions in MS strongly correlates with progression of cognitive dysfunction. Because no appropriate animal model for the study of hippocampus demyelination has been established, we used the cuprizone mouse model to investigated demyelination in young adult and aged mice. The myelin status was analyzed by classical histological staining, immunocytochemistry for proteolipoprotein, and electron microscopy. Oligodendrocyte, astroglial, and microglia markers were studied. Cuprizone intoxication induced an almost complete demyelination of distinct hippocampus subregions to a similar extent in young adult and aged male mice. Demyelination was pronounced in a subset of white and gray matter areas, i.e., the stratum lacunosum moleculare containing the perforant path, medial alveus, stratum pyramidale in the cornu ammonis 2/3 region, and hilus region. Besides demyelination, affected areas displayed hypertrophic and hyperplastic astrocytosis. No significant effect on microglia invasion was detected at any investigated time point (0, 3, 5, and 7 weeks). We conclude that cuprizone-induced demyelination provides an adequate animal model to investigate appropriate therapy strategies for the prevention of hippocampus demyelination.

Brain-region-specific astroglial responses in vitro after LPS exposure.

Astroglia is well-known to be integrated in the complex regulation of neuroinflammation in the central nervous system. Astrocytes become activated and synthesize cytokines, chemokines, and prostanoids during degenerative and vulnerable processes and interact with other immune-competent cells. Degenerative disorders often occur in a brain-region-specific fashion suggesting differences in the activity and reactivity of innate immune cells. We have investigated the potency of lipopolysaccharides (LPS) to differently stimulate astrocytes from the cortex and midbrain. Astroglial cultures were prepared from Bagg albino/c mice and exposed to LPS. Astrocytes from both brain areas already differed in their capacity and profile of cytokine expression under basal unstimulated conditions. In response to LPS, we observed both a region-specific pattern of up-regulation of distinct cytokines and differences in the extent and time-course of activation. Our data demonstrate that astrocytes reveal a region-specific basal profile of cytokine expression and a selective area-specific regulation of cytokines upon LPS-induced inflammation. This makes astrocytes likely candidates to be responsible for region-specific incidence rates of neurological and neurodegenerative disorders.

First single movement of turkey embryos.

UNLABELLED: The purpose of the study was to characterize the first contraction of an isolated muscle in turkey embryo. The space of time of the contraction since beginning of incubation, topography, morphogenesis and histology of the concerned muscle and its mechanical counterpart are described. MATERIAL AND METHODS: From the 3rd day of incubation on until the 6th day the embryos were continuously watched through a cellophane window in the eggshell. The installing of the window followed a certain time schedule to reveal the influence of the experimental conditions. For histology the embryos were fixed in Bouin's fluid, then completely cut in serial sections of 5 microm thickness and stained according to Masson-Goldner's trichrome procedure plus resorcin-fuchsin. Wire frame 3D reconstructions were performed to reveal the topography of the region. RESULTS: A paired muscle 1 mm long and 0.1 mm broad, derived by fusion of the four occipital myomeres, is responsible for the first individual contraction. The contraction produces a stretching in the neck region. The muscle named M. occipitalis primordialis consists of four end-to-end connected groups of mononucleated muscle cells; insofar it looks like early muscle in fishes and amphibians. The muscle contains two types of cells according to the cell nuclei. The elastic rod-shaped notochord represents an endoskeleton. Immediately after contraction it brings the body of the embryo back into its former shape. In the neck region the diameter of the notochord is less and, therefore, the elasticity of notochord is higher than further caudal. The floor plate may prevent damage of the neural tube during excursion of the notochord. The floor plate is flanked by two floor plate posts, which have a filamentous content like the floor plate. Their function may be fastening of floor plate and protection of nerve tissue. The passive pulse movements in the occipital region for 2 days before first contraction are considered to be of importance in orientation and extent of the consecutive active reactions. CONCLUSION: Vital observation accompanying serial section examination showed to be a suitable approach to biomechanical investigations in embryology. It allowed even after nearly 180 years of intensive morphological studies of avian embryos to find a new, up till now not described muscle.