Jane R. Giblin

An ultrastructural and immunocytochemical analysis of leptomeningeal and meningioma cultures.

Using immunocytochemical methods, we localized several glycoproteins of the extracellular matrix to leptomeningeal cells and meningiomas in vitro. Three cell lines derived from normal human leptomeninges and seven from meningiomas were studied by indirect immunofluorescence to evaluate the cellular production of fibronectin, laminin, collagen type IV, and procollagen type III. All leptomeningeal cell lines stained intensely and uniformly for all matrix proteins; all meningioma cell cultures stained uniformly, but the intensity of staining varied considerably. After removal of the cells in culture adherent to glass with 25-mM ammonium hydroxide, indirect immunofluorescence demonstrated an exuberant residual extracellular residue enriched with fibronectin, laminin, collagen type IV, and procollagen type III. Electron microscopic examination of all leptomeningeal and meningioma cultures revealed desmosomes and dense tonofilament formation; in addition, granular, filamentous basement membrane-like material was abundant in the extracellular spaces of all cultures. Sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis of the cell layer of two leptomeningeal and four meningioma cultures showed production of interstitial collagen types I and III; diethylaminoethyl (DEAE)-cellulose chromatography of the medium demonstrated preferential production of procollagen type I. Our findings show conclusively that normal arachnoid cells in vitro synthesize several of the collagen subtypes and may be responsible for the “fibrous response” of the leptomeninges to trauma, infection, or infiltration by tumor. The similarities between leptomeningeal cells and meningiomas demonstrated by electron microscopy and by indirect immunofluorescence support the notion that meningiomas are derived from arachnoid cells. The localization of various mesenchymal glycoproteins within the intra- and extracellular spaces and the ubiquity of specialized intercellular junctions suggest that leptomeningeal cells in culture have the potential to behave like both stromal and epithelial cells.

Establishment and characterization of five cell lines derived from human malignant gliomas.

SummaryWe established and characterized five cell lines derived from human malignant gliomas (four glioblastomas multiforme and one highly anaplastic astrocytoma). All cell lines exhibited tumor cell morphology and growth kinetics, and anchorage-independent growth in soft agar. Cytogenetic analysis revealed significant aneuploidy in all five cases as well as clonal chromosomal alterations unique to each cell line. No cell line was tumorigenic in athymic mice. Two of the cell lines were sensitive to carmustine (BCNU) in monolayer and soft-agar cultures. Electron microscopy showed marked variability between cell lines in the number and structure of intracytoplasmic organelles; SF-126 formed collagen fibers in vitro. Immunohistochemical analysis of the surgical specimens showed variable expression of glial fibrillary acidic protein (GFAP) in malignant astrocytes; positive immunostaining for glycoproteins of the extracellular matrix was found predominantly in perivascular regions. In early-passage cultures, only cell line SF-295 expressed GFAP; at establishment, none of the cell lines expressed GFAF or glutamine synthetase. Fibronectin and laminin were expressed by all cell lines in early-passage culture, but expression of these glycoproteins at establishment was variable. Only SF-126 was positively identified by immunostains for procollagen III; this was also the only cell line in which DEAE-cellulose chromatography and SDS-PAGE demonstrated interstitial collagen synthesis. These well-characterized glioma-derived cell lines may now serve as useful tools with which to study the cell biology of gliomas. The synthesis of interstitial collagen by a glioma-derived cell line may suggest a derivation from vascular mesenchymal elements, either reactive or transformed, in the original heterogeneous malignant glioma, rather than from a glial precursor cell.

Distribution of extracellular matrix proteins in primary human brain tumours: an immunohistochemical analysis.

Using immunohistochemical techniques, we localized several glycoproteins of the extracellular matrix in paraffin-embedded sections of 4 normal brain and 38 primary intracranial tumour specimens. All specimens were positively immunostained to various degrees by monoclonal antibodies to type IV collagen and procollagen III and by antisera to laminin and fibronectin. Staining was consistently most intense at sites of contact between neuroepithelial and mesenchymal or leptomeningeal elements; there was no demonstrable staining within or between neuroepithelial elements in the neuropil. Tumour cells from meningiomas and from the sarcomatous portion of a gliosarcoma were positively immunostained for fibronectin and laminin. The integrity of the glial limitans externa was demonstrated by the positive linear reaction product produced by immunostains for type IV collagen and laminin, even in the most malignant gliomas. The deposition of extracellular matrix glycoproteins at the glial-mesenchymal interface observed in this study of primary human brain tumours is a manifestation of one of the interactions between tumour and stromal cells in the central nervous system. A loss of coordination and an alteration in the interactions between epithelial cells and stromal cells across extracellular matrices such as basement membranes are thought to be fundamental steps in the development and progression of cancer. Further characterization studies focusing on other markers of the extracellular matrix are needed to elucidate completely the function of this structure in the central nervous system.

Characterization of fetal human brain cultures. Development of a potential model for selectively purifying human glial cells in culture.

Seven fetal human brain and three fetal human leptomeningeal cultures were characterized according to cell morphology, ultrastructural features, antigen expression, and collagen biosynthesis capabilities. Primary cultures derived from mechanically and enzymatically dissociated samples of fetal human brain consisted of a heterogeneous cell population in which astrocytes, oligodendrocytes, neurons, mesenchymal (leptomeningeal) cells, and macrophages were identified by light and electron microscopy. With progressive subcultivation, a homogeneous, leptomeningeal cell-derived population predominated. Fetal human brain and leptomeningeal specimens embedded in paraffin were analyzed immunohistochemically for the distribution of glial fibrillary acidic protein (GFAP), vimentin, factor-VIII-related antigen, fibronectin, laminin, type IV collagen, and procollagen III. Only GFAP and vimentin identified astrocytes and radial glia in the developing human brain; fibronectin, laminin, and the collagen types were immunolocalized largely to the leptomeninges and to the cerebral vasculature. The percentage of cells positively identified by antiserum to GFAP was greatest in primary cultures of fetal human brain; by the fourth passage, none of the fetal brain cultures were GFAP positive. The progressive decrease in the percentage of GFAP-positive cells was accompanied by an increase in the percentage of cells identified by collagen immunomarkers. Furthermore, in double immunolabeling experiments, antibodies to GFAP recognized a population of cells that was not identified by antibodies to laminin, fibronectin, type IV collagen, or procollagen III. SDS-PAGE and DEAE-cellulose chromatography of [3H]-proline-labeled early-passage fetal human brain cultures revealed collagen profiles identical to those obtained from direct cultures of the leptomeninges. The characteristics of later-passage fetal human brain cultures were identical in all respects to those of the fetal human leptomeningeal cultures. The proliferation of leptomeningeal cells could be inhibited by exposing the cells to cis-hydroxyproline (200 micrograms/ml). Primary fetal human brain cultures similarly treated with the proline analogue were found to be highly enriched for glial cells; these cultures were more than 90% GFAP positive. We conclude that primary fetal human brain cultures consist of a heterogeneous population of cells, most of which under the present culture conditions can be identified as glial cells. Subcultivation of human fetal brain cultures results in the overgrowth of mesenchymal cells, which are presumably derived from the leptomeninges.(ABSTRACT TRUNCATED AT 400 WORDS)

Comparison of in vitro Cloning Assays for Drug Sensitivity Testing of Human Brain Tumours

Three in vitro clonogenic assays were used to determine the sensitivity of an established human glioblastoma cell line (U251-MG) to five chemotherapeutic agents. The colony-forming efficiency of untreated culture was 0.695 +/- 0.170 in a monolayer assay with irradiated feeder cells, 0.018 +/- 0.006 in a low-O2 agar assay, and 0.049 +/- 0.021 in a two-layer agar system with nutrient-enriched medium (p less than 0.001). Comparison of the slope of the regression line for the dose-response curve and the interpolated ID90 for each drug showed that U251-MG was equally sensitive to aziridinylbenzoquinone and dianhydrogalactitol in all three assays. The sensitivity of this cell line to 1,3-bis-(2-chloroethyl)-1-nitrosourea (BCNU), cis-dichlorodiammineplatinum (II) (CDDP) and 9-hydroxy-2-N-methylellipticine (HME), however, varied depending on the assay used. In no instance did U251-MG show greater sensitivity (lower ID90 or steeper slope) in the low-O2 agar assay than in the other assays. BCNU and CDDP were least active in the monolayer assay, whereas HME showed both the lowest ID90 and steepest slope using this technique. We conclude that different in vitro tumour clonogenic assays show different colony-forming efficiencies for the same cell line and may show different responses to certain drugs. Identification of accurate predictive models of drug sensitivity will require correlative in vivo and in vitro studies.