Ruven Wilkens scite author profile

Miller-Dieker syndrome (MDS) is caused by a heterozygous deletion of chromosome 17p13.3 involving the genes LIS1 and YWHAE (coding for 14.3.3ε) and leads to malformations during cortical development. Here, we used patient-specific forebrain-type organoids to investigate pathological changes associated with MDS. Patient-derived organoids are significantly reduced in size, a change accompanied by a switch from symmetric to asymmetric cell division of ventricular zone radial glia cells (vRGCs). Alterations in microtubule network organization in vRGCs and a disruption of cortical niche architecture, including altered expression of cell adhesion molecules, are also observed. These phenotypic changes lead to a non-cell-autonomous disturbance of the N-cadherin/β-catenin signaling axis. Reinstalling active β-catenin signaling rescues division modes and ameliorates growth defects. Our data define the role of LIS1 and 14.3.3ε in maintaining the cortical niche and highlight the utility of organoid-based systems for modeling complex cell-cell interactions in vitro.

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Oncogenic deletion mutants of gp130 signal from intracellular compartments

Schmidt-Arras

Müller

Stevanovic

et al. 2013

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Interleukin 6 (IL-6) and, hence, activation of the IL-6 receptor signalling subunit glycoprotein 130 (gp130; also known as interleukin-6 receptor subunit b, IL6ST), has been linked to inflammation and tumour formation. Recently, deletion mutations in gp130 have been identified in inflammatory hepatocellular adenoma. The mutations clustered around one IL-6-binding epitope and rendered gp130 constitutively active in a ligandindependent manner. Here, we show that gp130 deletion mutants, but not wild-type gp130, localise predominantly to intracellular compartments, notably the endoplasmic reticulum (ER) and early endosomes. One of the most frequent mutants, gp130 Y186-Y190del (DYY) is retained in the ER quality control system because of its association with the chaperone calnexin. Furthermore, we can show that gp130 DYY induces downstream signalling from both ER and endosomes, and that both signals contribute to ligand-independent cell proliferation. We also demonstrate that the endosomal localisation of gp130 DYY is crucial for fully fledged STAT3 activation. Therefore, aberrant signalling from intracellular compartments might explain the tumorigenic potential of naturally occurring somatic mutations of gp130.

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Human cerebral organoids reveal progenitor pathology in EML1‐linked cortical malformation

et al. 2022

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Malformations of human cortical development (MCD) can cause severe disabilities. The lack of human‐specific models hampers our understanding of the molecular underpinnings of the intricate processes leading to MCD. Here, we use cerebral organoids derived from patients and genome edited‐induced pluripotent stem cells to address pathophysiological changes associated with a complex MCD caused by mutations in the echinoderm microtubule‐associated protein‐like 1 (EML1) gene. EML1‐deficient organoids display ectopic neural rosettes at the basal side of the ventricular zone areas and clusters of heterotopic neurons. Single‐cell RNA sequencing shows an upregulation of basal radial glial (RG) markers and human‐specific extracellular matrix components in the ectopic cell population. Gene ontology and molecular analyses suggest that ectopic progenitor cells originate from perturbed apical RG cell behavior and yes‐associated protein 1 (YAP1)‐triggered expansion. Our data highlight a progenitor origin of EML1 mutation‐induced MCD and provide new mechanistic insight into the human disease pathology.

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Ruven Wilkens

An Organoid-Based Model of Cortical Development Identifies Non-Cell-Autonomous Defects in Wnt Signaling Contributing to Miller-Dieker Syndrome

Oncogenic deletion mutants of gp130 signal from intracellular compartments

Human cerebral organoids reveal progenitor pathology in EML1‐linked cortical malformation

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