Publications by authors named "Andreas Birbach"

Transgene expression from short promoters in transgenic animals can lead to unwanted transgene expression patterns, often as a byproduct of random integration of the expression cassette into the host genome. Here I demonstrate that the often used PB-Cre4 line (also referred to as "Probasin-Cre"), although expressing exclusively in the male prostate epithelium when transmitted through male mice, can lead to recombination of loxP-flanked alleles in a large variety of tissues when transmitted through female mice. This aberrant Cre activity due to Cre expression in the oocytes leads to different outcomes for maternally or paternally transmitted loxP-flanked alleles: Maternally inherited loxP-flanked alleles undergo recombination very efficiently, making female PB-Cre4 mice an efficient monoallelic "Cre deleter line".

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In prostate cancers, epidemiological data suggest a link between prostate inflammation and subsequent cancer development, but proof for this concept in a tumor model is lacking. A constitutively active version of IκB kinase 2 (IKK2), which is activated by many inflammatory stimuli, was expressed specifically in the prostate epithelium. Constitutive activation of the IKK2/nuclear factor κB axis was insufficient for prostate transformation.

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Background: I-kappa B kinase 2 (IKK2 or IKK-beta) is one of the most crucial signaling kinases for activation of NF-kappa B, a transcription factor that is important for inflammation, cell survival and differentiation. Since many NF-kappa B activating pathways converge at the level of IKK2, molecular interactions of this kinase are pivotal for regulation of NF-kappa B signaling.

Methodology/principal Findings: We searched for proteins interacting with IKK2 using the C-terminal part (amino acids 466-756) as bait in a yeast two-hybrid system and identified the N-terminal part (amino acids 1-228) of the TNF-receptor associated factor TRAF1 as putative interaction partner.

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Here we describe the generation of an inducible Cre transgenic line allowing conditional mutagenesis in ovarian granulosa cells. We have expressed the tamoxifen inducible CreER(T)² fusion protein from a Bacterial Artificial Chromosome (BAC) containing the regulatory elements of the hydroxysteroid (17-beta) dehydrogenase 1 (Hsd17b1) gene. Hsd17b1-iCreER(T)² transgenic mice express the iCreER(T)² fusion protein exclusively in ovarian granulosa cells.

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Tissue remodeling or regeneration is believed to initiate from multipotent stem and progenitor cells. We report here the establishment of two spontaneously immortalized adult non-tumorigenic human prostate epithelial cell lines, NHPrE1 and BHPrE1. NHPrE1 (CD133(high)/CD44(high)/OCT4(high)/PTEN(high)) was characterized as a putative progenitor cell, and BHPrE1 (p63(high)/p53(high)/p21(WAF1)(high)/RB(high)) was characterized as a putative epithelial intermediate cell.

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Tissue-specific transgene expression in the prostate epithelium has previously been achieved using short prostate-specific promoters, rendering transgenic mouse lines susceptible to integration site-dependent effects. Here we demonstrate the applicability of bacterial artificial chromosome (BAC) technology to transgene expression in the prostate epithelium. We present mouse lines expressing an inducible Cre protein (MerCreMer) under the control of regulatory elements of the probasin gene on a BAC.

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Thirty years after its initial characterization and more than 1000 publications listed in PubMed describing its properties, the small (ca 15 kDa) protein profilin continues to surprise us with new, recently discovered functions. Originally described as an actin-binding protein, profilin has now been shown to interact with more than a dozen proteins in mammalian cells. Some of the more recently described and intriguing interactions are within neurons involving a neuronal profilin family member.

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IKKbeta/IKBKB (IkappaB kinase beta), also designated as IKK2, was named after its function of phosphorylating IkappaB molecules, the inhibitors of NF-kappaB transcription factors. The kinase activity of IKKbeta targets two adjacent serine residues of IkappaB leading to ubiquitination and proteasomal degradation of the inhibitor, followed by release and activation of NF-kappaB. Many signaling pathways that activate NF-kappaB converge at the level of IKKbeta.

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The advent of fluorescent proteins has revolutionized signaling research, shifting focus from biochemical assays to analysis of live cells, organized tissues and even entire organisms. Modern applications of fluorescent proteins go beyond their use as specific markers of cells or tissues, allowing the researcher to visualize intracellular translocations as well as biochemical reactions. In this mini-review, we summarize the properties of a variety of fluorescent proteins, their detection using fluorescence microscopy and flow analysis, as well as their basic and more advanced applications, including fluorescence resonance energy transfer (FRET) to study signaling dynamics.

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The actin cytoskeleton in pyramidal neurons plays a major role in activity-dependent processes underlying neuronal plasticity. The small actin-binding protein profilin shows NMDA receptor-dependent accumulation in dendritic spines, which is correlated with suppression of actin dynamics and long-term stabilization of synaptic morphology. Here we show that following NMDA receptor activation profilin also accumulates in the nucleus of hippocampal neurons via a process involving rearrangement of the actin cytoskeleton.

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It has been shown previously that the transcription factor NF-kappaB and its inhibitor IkappaBalpha shuttle constitutively between cytosol and nucleus. Moreover, we have recently demonstrated nucleocytoplasmic shuttling of the NF-kappaB-inducing kinase NIK, a component of the NF-kappaB pathway, which is essential for lymph node development and B-cell function. Here we show that nuclear NIK also occurs in nucleoli and that this localization is mediated by a stretch of basic amino acids in the N-terminal part of the protein (R(143)-K-K-R-K-K-K(149)).

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We aimed to investigate the dynamics of the NF-kappaB signaling pathway in living cells using GFP variants of p65-NF-kappaB, IkappaBalpha, tumor necrosis factor-receptor associated factor 2 (TRAF2), the NF-kappaB inducing kinase (NIK) and IkappaB kinases (IKK1 and IKK2). Detailed kinetic analysis of constitutive nucleocytoplasmic shuttling processes revealed that IkappaBalpha enters the nucleus faster than p65. Examination of signaling molecules upstream of NF-kappaB and IkappaBalpha revealed a predominant cytoplasmic localization at steady state.

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