Rita Pillai

Differentiation of human bone marrow stem cells into cells with a neural phenotype: diverse effects of two specific treatments

BackgroundIt has recently been demonstrated that the fate of adult cells is not restricted to their tissues of origin. In particular, it has been shown that bone marrow stem cells can give rise to cells of different tissues, including neural cells, hepatocytes and myocytes, expanding their differentiation potential.ResultsIn order to identify factors able to lead differentiation of stem cells towards cells of neural lineage, we isolated stromal cells from human adult bone marrow (BMSC). Cells were treated with: (1) TPA, forskolin, IBMX, FGF-1 or (2) retinoic acid and 2-mercaptoethanol (BME). Treatment (1) induced differentiation into neuron-like cells within 24 hours, while a longer treatment was required when using retinoic acid and BME. Morphological modifications were more dramatic after treatment (1) compared with treatment (2). In BMSC both treatments induced the expression of neural markers such as NF, GFAP, TUJ-1 and neuron-specific enolase. Moreover, the transcription factor Hes1 increased after both treatments.ConclusionOur study may contribute towards the identification of mechanisms involved in the differentiation of stem cells towards cells of neural lineage.

S100b counteracts effects of the neurotoxicant trimethyltin on astrocytes and microglia

Central nervous system degenerative diseases are often characterized by an early, strong reaction of astrocytes and microglia. Both these cell types can play a double role, protecting neurons against degeneration through the synthesis and secretion of trophic factors or inducing degeneration through the secretion of toxic molecules. Therefore, we studied the effects of S100B and trimethyltin (TMT) on human astrocytes and microglia with two glial models, primary cultures of human fetal astrocytes and a microglia cell line. After treatment with 10–5 M TMT, astrocytes showed morphological alterations associated with an increase in glial fibrillary acidic protein (GFAP) expression and changes in GFAP filament organization. Administration of S100B before TMT treatment prevented TMT‐induced changes in morphology and GFAP expression. A decrease in inducible nitric oxide synthase expression was observed in astrocytes treated with TMT, whereas the same treatment induced iNOS expression in microglia. In both cases, S100B prevented TMT‐induced changes. Tumor necrosis factor‐α mRNA expression in astrocytes was not modified by TMT treatment, whereas it was increased in microglia cells. S100B pretreatment blocked the TMT‐induced increase in TNF‐α expression in microglia. To trace the mechanisms involved in S100B activity, the effect of BAY 11‐7082, an inhibitor of nuclear factor‐κB (NF‐κB) activation, and of PD98059, an inhibitor of MEK‐ERK1/2, were investigated. Results showed that the protective effects of S100B against TMT toxicity in astrocytes depend on NF‐κB, but not on ERK1/2 activation. These results might help in understanding the role played by glial cells in brain injury after exposure to chemical neurotoxicants and support the view that S100B may protect brain cells in case of injury.

Differentiation of human adult CD34+ stem cells into cells with a neural phenotype: Role of astrocytes

It has recently been reported that adult hematopoietic stem cells can differentiate into neural cells, opening new frontiers in therapy for neurodegenerative diseases. In this study, adult human hematopoietic stem cells (HSCs) were isolated via magnetic bead sorting, using a specific CD34 antibody and cultured with human astrocyte culture conditioned medium (ACM). In order to evaluate their differentiation into neurons and/or astrocytes, ACM-treated cultures were probed for the expression of several neural markers. We observed morphological modifications and, after 20 days of treatment, cell morphology displayed extending processes. Immunocytochemistry, Western blotting and RT-PCR showed the expression of neuronal markers such as neurofilaments, neuron specific enolase (NSE) and NeuN in ACM-treated HSCs cultured in poly-L-lysine-coated dishes. On the contrary, when the same ACM-treated cells were grown on a plastic substrate, they expressed high levels of glial fibrillary acidic protein (GFAP), with only weak expression of neuronal markers. Nestin, a neural progenitor cell marker, was present in treated cells, regardless of the substrate. These results demonstrate that astrocytes can generate a suitable microenvironment for inducing HSCs to differentiate into neural cells. Therefore, adult bone marrow may represent a readily accessible source of cells for treating neurodegenerative diseases.

S100B modulates growth factors and costimulatory molecules expression in cultured human astrocytes

S100B is a Ca(2+)-binding protein expressed in the nervous system. Increased levels of S100B in the extracellular space have been detected in several neurological disorders. We investigated the response of human astrocytes to micromolar chronic concentrations of this protein measuring the expression of some costimulatory molecules, such as CD137, CD137-L, CD40, CD40-L, the chemokine RANTES and two growth factors FGF-2 and TGF-β2. Our findings suggest that high levels of S100B in the brain parenchyma may modulate the activation status of astrocytes decreasing their neuroprotective role and modifying their interaction with microglia and other inflammatory cells. This effect may contribute to evolution of some neurological disorders.

Thyrospheres from B-CPAP cell line with BRAF and TERT promoter mutations have different functional and molecular features than parental cells

Human thyroid cancer derived cell lines are widely used to study the mechanisms involved in thyroid carcinogenesis. However, there is limited availability of non-cross-contaminated cancer cell lines derived from papillary thyroid carcinoma (PTC), and the B-CPAP cell line is one of the few such lines. B-CPAP cells have been genetically and cytogenetically well-characterized, but details of their stemness features remain uncertain. Considering that this cell line is extensively used for in vitro studies on thyroid tumorigenesis, we broaden its functional and molecular profiles as well as the tumorigenic capacity. We used functional assays (sphere-forming capacity and efficiency), assessed self-renewal and propagation efficiency and tested in vivo tumorigenicity in Hsd:Athymic Nude-Foxn1nu mice. Expression of markers of stemness, differentiation, and epithelial-mesenchymal transition were estimated at RNA and protein levels in adherent parental cells and sphere-forming cells. Functional aspects and stemness features were compared with normal thyrocytes. Protein expression of xenograft tumors was evaluated by immunohistochemistry. B-CPAP sphere-forming cells were able to form thyrospheres theoretically indefinitely in an appropriate serum-free medium, reverting to the adherent parental cell phenotype when cultured in differentiation medium. Different expression of ALDH1-A1 and CD44 stemness markers and TTF-1 and CK19 differentiation markers allowed discrimination between isolated sphere-forming cells and adherent parental cells, indicating that sphere-forming cells retained stem-like features. In keeping with these observations, tumorigenicity assays confirmed that, relative to parental adherent cells, thyrospheres had enhanced capacity to initiate xenograft tumors. Thyrospheres from normal cell line retained very low functional capacity, as well as different stemness markers expression compared to tumor thyrospheres. Our findings may constitute a useful background to develop an in vitro model for assessing the origin and progression of papillary thyroid carcinoma bearing BRAFV600E and TERT promoter mutations.

Expression analysis of pluripotency-associated genes in human fetal cortical and striatal neural stem cells during differentiation

In the field of developmental biology, there is compelling evidence for a network of activity of pluripotency and stem-associated genes comprising of Oct4, Nanog and nestin. During neurogenesis, the choice between enhancement versus suppression of transcriptional modulation of these identified genes determines the balance between self-renewal neural stem cells (NSC) and immature neuronal phenotypes. By using immunocytochemistry and RT-PCR techniques, our study aims to address the question whether and to what extent mRNA and protein profiles are expressed in human fetal neurospheres obtained from cortical and striatal brain regions, both in expansion (undifferentiated cells) and differentiation conditions monitored after 1 and 4 weeks in vitro culturing. Our results clearly demonstrate the sustained presence of opposite signals: strong downregulation of Oct4 and Nanog genes in cortical differentiating cells and significant up-regulation for nestin gene both in cortical and striatal differentiating cells. Notably, by immunostaining techniques, Oct4 and Nanog protein expression have indicated the presence of both nuclear and cytoplasmic content followed by their rapid turnover (immediately after 1 week). Moreover, during the differentiation process, dissociated neurospheres displayed unexpected number of nestin positive cells accompanied by a constant level of staining intensity. In conclusion, the present study provides new insights into brain region related features in terms of Oct4, Nanog and nestin expression both at cellular and molecular level.

Downregulation of inflammatory markers by conjugated linoleic acid isomers in human cultured astrocytes

Objectives: Conjugated linoleic acid (CLA) isomers have been shown to possess anti-inflammatory activity in the central nervous system. In this study, we aimed to evaluate whether modulation of the fatty acid profile by the CLA isomers c9,t11 or t10,c12CLA was associated with changes in the expression of pro-inflammatory molecules in human astrocytes. Methods: Cultured astrocytes were treated for 6 days with 100 µM fatty acids (c9,t11CLA or t10,c12CLA or oleic acid). Following the treatment, the fatty acid profile of the cell and pro-inflammatory molecule expression were assessed. Results: Only the t10,c12CLA isomer induced a significant decrease in arachidonic acid and increased the ratio of docosahexaenoic acid/eicosapentaenoic acid, which constitutes indirect evidence of peroxisome proliferator-activated receptor alpha activation. Inhibition of tumour necrosis factor-α, interleukin-1β, and RANTES expression was observed in astrocytes treated with c9,t11CLA and t10,c12CLA. Discussion: Current data demonstrate that CLA isomers, particularly t10,c12, may affect neuroinflammation by reducing the pro-inflammatory molecules in cultured astrocytes, suggesting a potential nutritional role of CLA isomers in modulating the astrocyte inflammatory response.

Thyrospheres enriched in stem-like cells from B-CPAP thyroid cancer cell line : morphomolecular haracterization

Many studies performed over the past years have shown that tumor growth is sustained by a subpopulation of cells with stem-like features (cancer stem cells, CSCs), such as self renewal, multipotency, high migration capacity, drug resistance and aberrant differentiation, but little is known about thyroid tumor CSCs. Among solid tumors, papillary thyroid carcinoma (PTC) is the most common type of thyroid cancer representing up to 80% of thyroid tumors. Isolation and propagation of stem-like cancer cells from established cancer cell lines by sphere forming assay in selective serum-free medium has been extensively reported. We report here the enrichment and morphomolecular characterization of sphere-propagating cells with stem-like properties from the B-CPAP papillary thyroid cancer-derived cell line. Thyrospheres from B-CPAP cells could be propagated up to ten generations. The “stemness” profile was evaluated by functional assays, RT-PCR, western blot, immunocytochemistry. Sphere forming efficiency (SFE) and self renewal increased exponentially at every generation with maximum value at the 8th. Results showed an increase in mRNA expression of stem cell (Oct 3/4, Nanog, ABCG2, Nestin), endodermal (GATA4), tumoral (TP63), and early thyroid differentiated (PAX8, TTF1) markers. A decrease in mRNA expression was observed in late thyroid differentiated marker (TG) along the generation of spheres. Positive staining of Oct3/4, GATA4, Tp63 and TTF1 was also confirmed by immunoblotting and immunocytochemistry. We conclude that thyroid cancer stem/progenitor cell populations are present in the B-CPAP cell line, and that it can represent a model to propagate putative thyroid cancer stem-like cells. Supported by a RAS Grant (Regione Autonoma della Sardegna, P.O.S. FSE 2007-2013, L.R. 7/2007).