Stefan Haas scite author profile

The macrophage colony-stimulating factor (MCSF) is a 40-76-kD glycoprotein that plays an important role in the activation and proliferation of microglia both in vitro and in injured neural tissue. Here, we examined the regulation of MCSF receptor (MCSFR) and MCSF in the normal and injured mouse central nervous system (CNS) by using confocal laser microscopy, quantitative immunofluorescence, and reverse transcriptase-polymerase chain reaction (RT-PCR) techniques. Immunohistochemistry on fixed, floating tissue sections demonstrated low to moderate MCSFR immunoreactivity (MCSFR-IR) on microglia in the gray and white matter throughout the mouse CNS in the forebrain, brainstem, cerebellum, and spinal cord. High levels of MCSFR-IR were restricted to the superficial layer of the spinal cord dorsal horn, substantia nigra, and area postrema, a CNS region that lacks the blood-brain barrier. CNS injury led to a strong and specific increase in MCSFR-IR in the directly injured dorsal forebrain, in the cervical spinal cord (C2) after transection of the sensory, minor occipital nerve, and in the axotomized facial motor nucleus. Further investigation at the mRNA level in the facial nucleus model showed that this increase was accompanied by a rapid induction of the transcript for MCSFR, with a peak 1-2 days after injury, but only a constitutive expression of MCSF-mRNA. In summary, although normal levels of MCSF receptor in most microglia are low, microglial activation is accompanied by a rapid and massive increase. In view of the constitutive expression of MCSF, the early upregulation of the MCSF receptor may play a central role in preparing these macrophage-related cells to take part in the cellular response to CNS injury.

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Phase and aggregation behaviour of double-chain cationic surfactants from the class of N -alkyl- N -alkyl?- N , N -dimethylammonium bromide surfactants

Haas

Hoffmann

Thunig

et al. 1999

Colloid & Polymer Science

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Efferent Projections of the Anterior and Posterodorsal Regions of the Medial Nucleus of the Amygdala in the Mouse

Usunoff¹,

Schmitt²,

Itzev

et al. 2009

Cells Tissues Organs

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The efferent projections of the anterior and posterodorsal part of the medial nucleus (MePD) in the mouse were studied by means of anterograde axonal tracing using biotinylated dextran amine. The MePD axons ran mainly via the stria terminalis and to a lesser extent via the ventral amygdalofugal pathway. The projections to the forebrain were broadly distributed and varied from very strong to scant. The most significant connections were destined to the bed nucleus of the stria terminalis in which all parts of the medial division were innervated by MePD neurons. Moderate projections reached the limbic striatum (nucleus accumbens), olfactory tubercle and the lateral septal nucleus. The substantia innominata was also innervated by the MePD, and especially the projection to its ventral portion was substantial. The profuse innervation of the medial preoptic nucleus and medial preoptic area indicated significant involvement of the MePD in sexual behavior. Many hypothalamic nuclei were innervated but to a different extent. The very strong innervation of the ventral premammillary nucleus further indicated the involvement of the MePD in the neuronal circuitry for sexual behavior. Substantial projections also reached the anterior hypothalamus and tuber cinereum, while the connections to the lateral hypothalamus were widespread but showed moderate density. MePD strongly innervated the ventrolateral part of the ventromedial hypothalamic nucleus and moderately its remaining parts. The neurosecretory hypothalamic nuclei and the arcuate nucleus contained only a few MePD terminals. The thalamic innervation was very scant and reached the lateral habenular nucleus and the nuclei of the midline. The mesencephalic connections were moderate to sparse and projected to the mesolimbic dopaminergic groups in the ventral tegmental area, the pars lateralis and the dorsal tier of the substantia nigra pars compacta, the periaqueductal gray and the dorsal raphe nucleus. The present results principally resembled data known in other rodent species; however, the efferents of the MePD often differed in extent and/or topical distribution.

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Expression of Tgfβ1 and Inflammatory Markers in the 6-hydroxydopamine Mouse Model of Parkinson’s Disease

Haas

Zhou

Machado

et al. 2016

Front. Mol. Neurosci.

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Parkinson’s disease (PD) is a neurodegenerative disorder that is characterized by loss of midbrain dopaminergic (mDA) neurons in the substantia nigra (SN). Microglia-mediated neuroinflammation has been described as a common hallmark of PD and is believed to further trigger the progression of neurodegenerative events. Injections of 6-hydroxydopamine (6-OHDA) are widely used to induce degeneration of mDA neurons in rodents as an attempt to mimic PD and to study neurodegeneration, neuroinflammation as well as potential therapeutic approaches. In the present study, we addressed microglia and astroglia reactivity in the SN and the caudatoputamen (CPu) after 6-OHDA injections into the medial forebrain bundle (MFB), and further analyzed the temporal and spatial expression patterns of pro-inflammatory and anti-inflammatory markers in this mouse model of PD. We provide evidence that activated microglia as well as neurons in the lesioned SN and CPu express Transforming growth factor β1 (Tgfβ1), which overlaps with the downregulation of pro-inflammatory markers Tnfα, and iNos, and upregulation of anti-inflammatory markers Ym1 and Arg1. Taken together, the data presented in this study suggest an important role for Tgfβ1 as a lesion-associated factor that might be involved in regulating microglia activation states in the 6-OHDA mouse model of PD in order to prevent degeneration of uninjured neurons by microglia-mediated release of neurotoxic factors such as Tnfα and nitric oxide (NO).

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Dopaminergic differentiation of the Nurr1‐expressing immortalized mesencephalic cell line CSM14.1in vitro

Haas

Wree

2002

Journal of Anatomy

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The use of neural stem cells as grafts is a potential treatment for Parkinson's disease, but the potential of stem cells to differentiate into dopaminergic neurones requires investigation. The present study examined the in vitro differentiation of the temperature-sensitive immortalized mesencephalic progenitor cell line CSM14.1 under defined conditions. Cells were derived from the mesencephalic region of a 14-day-old rat embryo, retrovirally immortalized with the Large T antigen and cultured at 33 °C in DMEM containing 10% fetal calf serum (FCS). For differentiation, the temperature was elevated at 39 °C and FCS was reduced (1%). Using histology, immunocytochemical detection of the stem cell marker Nestin and the neuronal marker MAP5 and, in addition, Western blotting to determine the presence of neurone-specific enolase and the neurone nuclei antigen we demonstrated a differentiation of these cells into neuronal cells accompanied by a decrease in Nestin production. In Western blots, we detected the orphan nuclear receptor Nurr1 in these cells. This was followed by a time-dependent up-regulation of the enzymes tyrosine hydroxylase and aldehyde dehydrogenase 2 characteristic of mature dopaminergic neurones. Our in vitro model of dopaminergic cell differentiation corroborates recent in vivo observations in the developing rodent brain.

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Selective Targeting of Adenoviral Vectors to Neural Precursor Cells in the Hippocampus of Adult Mice: New Prospects for In Situ Gene Therapy

Schmidt

Haas

Hildebrandt

et al. 2007

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The adult brain contains neural precursor cells (NPC) that are attracted to brain lesions, such as areas of neurodegeneration, ischemia, and cancer. This suggests that NPC engineered to promote lineage-specific differentiation or to express therapeutic genes might become a valuable tool for restorative cell therapy and for targeting therapeutic genes to diseased brain regions. Here we report the identification of NPC-specific ligands from phage display peptide libraries and show their potential to selectively direct adenovirusmediated gene transfer to NPC in adult mice. Identified peptides mediated specific virus binding and internalization to cultured neurospheres. Importantly, peptide-mediated adenoviral vector infection was restricted to precursor cells in the hippocampal dentate gyrus of pNestingreen fluorescent protein transgenic or C57BL/6 mice. Our approach represents a novel method for specific manipulation of NPC in the adult brain and may have major implications for the use of precursor cells as therapeutic delivery vehicles in the central nervous system.

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Differential Proteome of the Striatum from Hemiparkinsonian Rats Displays Vivid Structural Remodeling Processes

Lessner¹,

Schmitt²,

Haas³

et al. 2010

J. Proteome Res.

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Parkinson's disease is a multifactorial, neurodegenerative disease where etiopathogenetic mechanisms are not fully understood. Animal models like the neurotoxic 6-OHDA-hemiparkinsonian rat model are used for standardized experiments. Here, we analyzed proteome changes of the striatum three months after 6-OHDA lesions of the nigral dopaminergic cell population. Striata were removed and proteins were separated by 2DE followed by differential spot analysis. Proteins in spots were identified by MALDI-TOF-MS. Most up-regulations of proteins were concerning energy metabolism in mitochondria. Proteins of calcium homeostasis like annexin A3, annexin A7, calbindin, calmodulin, calreticulin, and reticulocalbin 1 also were differentially regulated. Moreover, proteins involved in antioxidative mechanisms like superoxide dismutase, protein disulfide isomerase 1 and 3, N(G),N(G)-dimethylarginindimethyl-aminotransferase 2, and thioredoxin-dependent peroxide reductase were up-regulated. Interestingly, most cytoskeletal proteins belonging to the axon cytoskeleton and synapse were up-regulated pointing to long-distance axon remodeling. In addition, transcription factors, proteins of nucleic acid metabolism, chaperones, and degrading proteins (UCHL1) were up-regulated as well. In conclusion, the neurotoxin-induced proteome alterations indicate vivid long-distance remodeling processes of dendrites, axons, and synapses that are still ongoing even three months after perturbation, indicating a high plasticity and regeneration potential in the adult rat brain.

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Influence of polymeric surfactants on pesticidal suspension concentrates: dispersing ability, milling efficiency and stabilization power

Haas¹,

Hässlin²,

Schlatter

2001

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Stefan Haas

Regulation of MSCF receptors on microglia in the normal and injured mouse central nervous system: A quantitative immunofluorescence study using confocal laser microscopy

Phase and aggregation behaviour of double-chain cationic surfactants from the class of N -alkyl- N -alkyl?- N , N -dimethylammonium bromide surfactants

Efferent Projections of the Anterior and Posterodorsal Regions of the Medial Nucleus of the Amygdala in the Mouse

Expression of Tgfβ1 and Inflammatory Markers in the 6-hydroxydopamine Mouse Model of Parkinson’s Disease

Dopaminergic differentiation of the Nurr1‐expressing immortalized mesencephalic cell line CSM14.1in vitro

Selective Targeting of Adenoviral Vectors to Neural Precursor Cells in the Hippocampus of Adult Mice: New Prospects for In Situ Gene Therapy

Differential Proteome of the Striatum from Hemiparkinsonian Rats Displays Vivid Structural Remodeling Processes

Influence of polymeric surfactants on pesticidal suspension concentrates: dispersing ability, milling efficiency and stabilization power

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