Publications by authors named "Wolfgang E Reintsch"

This study aimed to evaluate different combinations of three dietary supplements for potential additive or synergistic effects in an Parkinson's Disease model. The complex and diverse processes leading to neurodegeneration in each patient with a neurodegenerative disorder cannot be effectively addressed by a single medication. Instead, various combinations of potentially neuroprotective agents targeting different disease mechanisms simultaneously may show improved additive or synergistic efficacy in slowing the disease progression and allowing the agents to be utilized at lower doses to minimize side effects.

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Article Synopsis
  • Fragile X syndrome (FXS) results from a repression of the gene responsible for the Fragile X mental retardation protein (FMRP), which is vital for brain development.
  • Research using induced pluripotent stem cells (IPSCs) from FXS patients and CRISPR-engineered FMR1 knock-out cells revealed decreased firing rates in neurons and changes in gene expression related to neuronal function.
  • The study found that the absence of FMRP leads to significant transcriptional alterations from the neural progenitor stage, disrupting neuronal activity and differentiation, highlighting FMRP's essential role in brain formation.
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A multitude of in vitro models based on induced pluripotent stem cell (iPSC)-derived motor neurons (MNs) have been developed to investigate the underlying causes of selective MN degeneration in motor neuron diseases (MNDs). For instance, spheroids are simple 3D models that have the potential to be generated in large numbers that can be used across different assays. In this study, we generated MN spheroids and developed a workflow to analyze them.

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The nervous system spread of alpha-synuclein fibrils is thought to cause Parkinson's disease (PD) and other synucleinopathies; however, the mechanisms underlying internalization and cellular spread are enigmatic. Here, we use confocal and superresolution microscopy, subcellular fractionation, and electron microscopy (EM) of immunogold-labeled α-synuclein preformed fibrils (PFFs) to demonstrate that this form of the protein undergoes rapid internalization and is targeted directly to lysosomes in as little as 2 min. Uptake of PFFs is disrupted by macropinocytic inhibitors and circumvents classical endosomal pathways.

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Study Question: Can we make the comet assay (single-cell gel electrophoresis) for human sperm a more accurate and informative high throughput assay?

Summary Answer: We developed a standardized automated high throughput comet (HT-COMET) assay for human sperm that improves its accuracy and efficiency, and could be of prognostic value to patients in the fertility clinic.

What Is Known Already: The comet assay involves the collection of data on sperm DNA damage at the level of the single cell, allowing the use of samples from severe oligozoospermic patients. However, this makes comet scoring a low throughput procedure that renders large cohort analyses tedious.

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Tropoelastin is the monomeric form of elastin, a major polymeric protein of the extracellular elastic matrix of vertebrate tissues with properties of extensibility and elastic recoil. Mammalian and avian species contain a single gene for tropoelastin. A tropoelastin gene has also previously been identified in amphibians.

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The cytoplasmic tail of cadherins is thought to regulate the strength and dynamics of cell-cell adhesion. Part of its regulatory activity has been attributed to a membrane-proximal region, the juxtamembrane domain (JMD), and its interaction with members of the p120 catenin subfamily. We show that titration of xARVCF, a member of this family, to the plasma membrane disrupts adhesion in the early embryo.

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In recent years proteomic techniques have started to become very useful tools in a variety of model systems of developmental biology. Applications cover many different aspects of development, including the characterization of changes in the proteome during early embryonic stages. During early animal development the embryo becomes patterned through the temporally and spatially controlled activation of distinct sets of genes.

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In Xenopus laevis, patterning of the trunk mesoderm into the dorsal notochord and lateral somites depends on differential regulation of Wnt-beta-catenin signaling. To study the cellular requirements for the physical separation of these tissues, we manipulated beta-catenin activity in individual cells that were scattered within the trunk mesoderm. We found that high activity led to efficient cell sorting from the notochord to the somites, whereas reduced activity led to sorting in the opposite direction.

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