M Puschmann scite author profile

Embryonic stem (ES) cells of the permanent line BLC6 derived from a 129/Sv Gat mouse blastocyst were differentiated as spheroid aggregates (embryoid bodies, EBs) in the presence of retionic acid. After 2 days in suspension, EBs were plated on gelatine-coated glass coverslips and cultivated for 5, 9, and 16 days post plating (DPP) in normal medium. In this study we investigated whether the well-known retinoic acid-induced differentiation of ES cells into neurons (identified by immunostaining for neuron-specific enolase and synaptophysin) was accompanied by cells expressing astroglial (GFAP), oligodendroglial (O4), and microglial (5C6, galectin-3) markers. Whereas differentiation of neurons was closely related to their centrifugal migration towards the periphery of the EBs, the maturation of neuroglia followed a strict time-dependent manner. At 5 DPP, only neurons but no cells expressing glia-specific markers, were observed. At 9 DPP, GFAP-positive and O4-positive macroglial cells appeared. At 16 DPP, microglial cells (5C6-positive and galectin-3-positive) occurred. The established dynamic of relationships between neuronal and nonneuronal cells shows that the model of EBs is similar to the sequence differentiation of the nervous tissue. Thus, enabling in vivo observation of neurons, astrocytes, oligodendrocytes, and microglia, the model of EBs provides a basis for further investigations on the relationships between neurons and neuroglia under various experimental conditions.

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An other look at iron: Role in host pathogen interaction

Ganzoni

Puschmann

1975

Blut

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Iron, as participant of many biological processes is a prerequisite for life. Uptake, internal transport and storage by organisms is handled by highly specialized chemical systems endowed with strong metal binding affinities. Apart from the homeostatic function of iron-binding compounds they appear of significance for inter-species interactions. Thus, by tight binding transferrin withholds the iron from invading microorganisms required for their optimal growth. This bacteriostatic property of the iron transport protein is however partially overcome by small molecular substances synthesized by bacteria and successfully competing for the metal. The balance of such interaction is a complex one. Yet, strong evidence points to the crucial importance of the amount of iron offered by a host to infecting agents for determining the fate of bacterial disease.

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M Puschmann

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An other look at iron: Role in host pathogen interaction

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