I Máciková scite author profile

I Máciková

4Publications

36Citation Statements Received

56Citation Statements Given

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Affiliations

Comenius University Bratislava, Slovak Academy of Sciences, Institute of Virology

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Subpopulation of nestin positive glial precursor cells occur in primary adult human brain cultures

et al. 2007

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Glial fibrillary acidic protein (GFAP) is an intermediate filament protein considered to be the best astroglial marker. However, the predominant cell population in adult human brain tissue cultures does not express GFAP; these cells have been termed "glia-like" cells. The basic question about histological origin of adult human brain cultures remains unanswered. Some authors showed that "glia-like" cells in adult human brain cultures might be of non-glial origin. We examined primary explant tissue cultures derived from 70 adult human brain biopsies. Within first 5-10 days approximately 5-10% of the small explants became attached. Outgrowing cells were mostly flat cells. These cells formed confluent layer over 3-6 weeks in culture. At confluence the cultures contained 2-5% of microglial cells, 0.1% GFAP-positive astrocytes, less than 0.01% oligodendrocytes and 95-98% GFAP-negative "glia-like" cells. This population of flat "glia-like" cells was positively stained for vimentin, fibronectin, and 20-30% of these cells stained for nestin. Our findings revealed that 1 mM dibutyryl-cAMP addition, in serum free conditions, induced a reversible stellation in 5-10% of the flat "glia-like" cells but did not induce the expression of GFAP or nestin in morphologically changed stellate cells. These results demonstrate that "glia-like" cells in primary adult human brain cultures constitute heterogeneous cell populations albeit with similar morphological features. Two distinct subpopulations have been shown: (i) the one immunostained for nestin; and (ii) the other reactive for dibutyryl-cAMP treatment.

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GFAP-positive astrocytes are rare or absent in primary adult human brain tissue cultures

et al. 2009

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Traditionally, astrocytes are divided into fibrous and protoplasmic types based on their morphologic appearance. Here the cultures were prepared separately from the adult human cortical gray and white matter of brain biopsies. Both cultures differed only in the number of glial fibrillary acidic protein (GFAP)-positive cells. In the gray matter these were absent or rare, whereas in confluent cultures from the white matter they reached 0.1% of all cells. Three main morphologic types of GFAP-positive cells were found in this study: stellate, bipolar and large flat cells. GFAP-positive cells with two or three long processes mimic a neuron-like morphology. We did not find process-bearing cells expressing neuronal markers (MAP-2, NF, and N-CAM). The conflicting reports concerning GFAP immunostaining and the study dealing with the presence of putative neurons in adult human brain cultures are discussed with respect to these findings. The latter classification of astrocytes into type 1 and type 2 is based on immunostaining to A2B5 antigen: type 1 (GFAP+/A2B5-) and type 2 (GFAP+/A2B5+) astrocytes are proposed to be analogous to protoplasmic and fibrous astrocytes, respectively. In adult human brain cultures we found only small amount of A2B5-positive cells. Double immunofluorescence revealed that astroglial cells of similar fibrous or bipolar shape grown on one coverslip were either GFAP+/A2B5+ or GFAP+/A2B5-. On the other hand, the A2B5+/GFAP-immunophenotype was not observed. These results indicate that in general the cell phenotype from adult human brain tissue is not well established when they are in culture.

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Conformation-Dependent Accessibility of the Linear Epitopes Located on the Rabies Virus Glycoprotein

Kontseková

Máciková²,

Novák³

et al. 1992

Viral Immunology

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Seven monoclonal antibodies (MAbs) were derived from mice immunized with the rabies virus glycoprotein of the Pitman-Moore (PM) strain. These antibodies recognized at least five partially overlapping sites located in one immunodominant region. A panel of MAbs was then used to characterize antigenic relationship between PM strain and SAD-Vnukovo strain of these rabies viruses. In immunoblot, all tested antibodies bound to the glycoprotein of both rabies strains, indicating shared antigenic determinants located on the corresponding immunodominant regions. The pattern of reactivity in immunoblot suggested the specificity of antibodies against linear epitopes. However, the supposed close antigenic relation between PM and SAD-Vnukovo strains (evidenced by immunoblot) was not fully confirmed by immunoenzymatic assay. Data provided by ELISA demonstrated two distinct patterns of MAbs reactivity with both antigens. Four antibodies showed specificity for PM strain glycoprotein only, while three MAbs bound with both PM and SAD-Vnukovo strain antigens. We supposed the strain-specific conformation of the native glycoprotein to be responsible for selective access of single MAbs to the respective common linear epitopes.

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One-step method for establishing 8-azaguanine-resistant hybridomas suitable for the preparation of triomas

Kontseková

Novák

Máciková

et al. 1991

Journal of Immunological Methods

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I Máciková

Subpopulation of nestin positive glial precursor cells occur in primary adult human brain cultures

GFAP-positive astrocytes are rare or absent in primary adult human brain tissue cultures

Conformation-Dependent Accessibility of the Linear Epitopes Located on the Rabies Virus Glycoprotein

One-step method for establishing 8-azaguanine-resistant hybridomas suitable for the preparation of triomas

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