Henning Wellmann scite author profile

One mechanism leading to neurodegeneration during Alzheimer's disease (AD) is amyloid beta peptide (Abeta) neurotoxicity. Abeta elicits in cultured central nervous system neurons a biphasic response: a low-dose neurotrophic response and a high-dose neurotoxic response. Previously we reported that NF-kappaB is activated by low doses of Abeta only. Here we show that NF-kappaB activation leads to neuroprotection. In primary neurons we found that a pretreatment with 0.1 microM Abeta-(1-40) protects against neuronal death induced with 10 microM Abeta-(1-40). As a known neuroprotective agent we next analyzed the effect of tumor necrosis factor alpha (TNF-alpha). Maximal activation of NF-kappaB was found with 2 ng/ml TNF-alpha. Pretreatment with TNF-alpha protected cerebellar granule cells from cell death induced by 10 microM Abeta-(1-40). This protection is described by an inverted U-shaped dose response and is maximal with a NF-kappaB-activating dose. The molecular specificity of this protective effect was analyzed by specific blockade of NF-kappaB activation. Overexpression of a transdominant negative IkappaB-alpha blocks NF-kappaB activation and potentiates Abeta-mediated neuronal apoptosis. Our findings show that activation of NF-kappaB is the underlying mechanism of the neuroprotective effect of low-dose Abeta and TNF-alpha. In accordance with these in vitro data we find that nuclear NF-kappaB immunoreactivity around various plaque stages of AD patients is reduced in comparison to age-matched controls. Taken together these data suggest that pharmacological NF-kappaB activation may be a useful approach in the treatment of AD and related neurodegenerative disorders.

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Retrograde Transport of Transcription Factor NF-κB in Living Neurons

Wellmann¹,

Kaltschmidt²,

Kaltschmidt³

2001

Journal of Biological Chemistry

107

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Comparative analysis of neonicotinoid binding to insect membranes: II. An unusual high affinity site for [³H]thiamethoxam in Myzus persicae and Aphis craccivora

Wellmann

Gomes

Lee

et al. 2004

Pest Management Science

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Neonicotinoids represent a class of insect-selective ligands of nicotinic acetylcholine receptors. Imidacloprid, the first commercially used neonicotinoid insecticide, has been studied on neuronal preparations from many insects to date. Here we report first intrinsic binding data of thiamethoxam, using membranes from Myzus persicae Sulzer and Aphis craccivora Koch. In both aphids, specific binding of [3H]thiamethoxam was sensitive to temperature, while the absolute level of non-specific binding was not affected. In M persicae, binding capacity (Bmax) for [3H]thiamethoxam was ca 450 fmol mg(-1) of protein at 22 degrees C and ca 700 fmol mg(-1) of protein at 2 degrees C. The negative effect of increased temperature was reversible and hence not due to some destructive process. The affinity for [3H]thiamethoxam was less affected by temperature: Kd was ca 11 nM at 2 degrees C and ca 15 nM at 22 degrees C. The membranes also lost binding sites for [3H]thiamethoxam during prolonged storage at room temperature, and upon freezing and thawing. In A craccivora, [3H]thiamethoxam was bound with a capacity of ca 1000 fmol mg(-1) protein and an affinity of ca 90 nM, as measured at 2 degrees C. Overall, the in vitro temperature sensitivity of [3H]thiamethoxam binding was in obvious contrast to the behaviour of [3H]imidacloprid studied in parallel. Moreover, the binding of [3H]thiamethoxam was inhibited by imidacloprid in a non-competitive mode, as shown with M persicae. In our view, these differences demonstrate that thiamethoxam and imidacloprid, which represent different structural sub-classes of neonicotinoids, do not share the same binding site or mode. This holds also for other neonicotinoids, as we report in a companion article.

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Optimized protocol for biolistic transfection of brain slices and dissociated cultured neurons with a hand-held gene gun

Wellmann

Kaltschmidt

1999

Journal of Neuroscience Methods

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Cultured chick sympathetic neurons: modulation of electrically evoked noradrenaline release by P2-purinoceptors

Allgaier

Wellmann

Schobert

et al. 1995

Naunyn-Schmiedeberg's Arch Pharmacol

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The present study investigates the pharmacological profile of P2-purinoceptors modulating noradrenaline release from cultured chick sympathetic neurons. ATP (30 microM-3 mM) and 2-methylthio-ATP (3-100 microM), but not alpha, beta-methylene-ATP (up to 100 microM), caused a significant facilitation of electrically evoked [3H]-noradrenaline release when added 2 min before depolarization. The facilitation declined with time of exposure suggesting receptor desensitization. The facilitatory effect was markedly diminished by the P2-purinoceptor antagonists reactive blue 2 (3 microM) and suramin (300 microM), but not changed by mecamylamine (10 microM), a nicotinic receptor antagonist. At 1 mM and higher concentrations, ATP added for 12 min, inhibited noradrenaline release; release was virtually abolished by 6 mM ATP. The inhibitory effect of ATP was slightly diminished by suramin but not affected by reactive blue 2. Electrically evoked [3H]-noradrenaline release remained unaffected in the presence of the adenosine (P1)-receptor agonists R(-)N6-(2-phenylisopropyl)adenosine (R-PIA), 2-[p-(2-carboxyethyl) phenylethylamino]-5'-N-ethylcarboxamidoadenosine (NECA), and N6-2-(4-aminophenyl)ethyladenosine (APNEA), used up to 1 microM. The present results confirm the existence of two P2-purinoceptors affecting noradrenaline release: 1) a facilitatory receptor which is activated by 2-methylthio-ATP as well as ATP, and blocked by suramin as well as reactive blue 2, and 2) an inhibitory receptor which is activated by ATP, only slightly affected by suramin but not at all by reactive blue 2 and does not belong to the established P2-purinoceptor subtypes.

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