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Author: Sickmann, Albert × Start date: 2020 × DDC: 570 × WGL Institute: ISAS ×

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    LUBAC assembles a ubiquitin signaling platform at mitochondria for signal amplification and transport of NF-κB to the nucleus
    (Hoboken, NJ [u.a.] : Wiley, 2022) Wu, Zhixiao; Berlemann, Lena A.; Bader, Verian; Sehr, Dominik A.; Dawin, Eva; Covallero, Alberto; Meschede, Jens; Angersbach, Lena; Showkat, Cathrin; Michaelis, Jonas B.; Münch, Christian; Rieger, Bettina; Namgaladze, Dmitry; Herrera, Maria Georgina; Fiesel, Fabienne C.; Springer, Wolfdieter; Mendes, Marta; Stepien, Jennifer; Barkovits, Katalin; Marcus, Katrin; Sickmann, Albert; Dittmar, Gunnar; Busch, Karin B.; Riedel, Dietmar; Brini, Marisa; Tatzelt, Jörg; Cali, Tito; Winklhofer, Konstanze F.
    Mitochondria are increasingly recognized as cellular hubs to orchestrate signaling pathways that regulate metabolism, redox homeostasis, and cell fate decisions. Recent research revealed a role of mitochondria also in innate immune signaling; however, the mechanisms of how mitochondria affect signal transduction are poorly understood. Here, we show that the NF-κB pathway activated by TNF employs mitochondria as a platform for signal amplification and shuttling of activated NF-κB to the nucleus. TNF treatment induces the recruitment of HOIP, the catalytic component of the linear ubiquitin chain assembly complex (LUBAC), and its substrate NEMO to the outer mitochondrial membrane, where M1- and K63-linked ubiquitin chains are generated. NF-κB is locally activated and transported to the nucleus by mitochondria, leading to an increase in mitochondria-nucleus contact sites in a HOIP-dependent manner. Notably, TNF-induced stabilization of the mitochondrial kinase PINK1 furthermore contributes to signal amplification by antagonizing the M1-ubiquitin-specific deubiquitinase OTULIN. Overall, our study reveals a role for mitochondria in amplifying TNF-mediated NF-κB activation, both serving as a signaling platform, as well as a transport mode for activated NF-κB to the nuclear.
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    A Homozygous PPP1R21 Splice Variant Associated with Severe Developmental Delay, Absence of Speech, and Muscle Weakness Leads to Activated Proteasome Function
    (Totowa, NJ : Humana Press, 2023) Hentschel, Andreas; Meyer, Nancy; Kohlschmidt, Nicolai; Groß, Claudia; Sickmann, Albert; Schara-Schmidt, Ulrike; Förster, Fabian; Töpf, Ana; Christiansen, Jon; Horvath, Rita; Vorgerd, Matthias; Thompson, Rachel; Polaparapu, Kiran; Lochmüller, Hanns; Preusse, Corinna; Hannappel, Luis; Schänzer, Anne; Grüneboom, Anika; Gangfuß, Andrea; Roos, Andreas
    PPP1R21 acts as a co-factor for protein phosphatase 1 (PP1), an important serine/threonine phosphatase known to be essential for cell division, control of glycogen metabolism, protein synthesis, and muscle contractility. Bi-allelic pathogenic variants in PPP1R21 were linked to a neurodevelopmental disorder with hypotonia, facial dysmorphism, and brain abnormalities (NEDHFBA) with pediatric onset. Functional studies unraveled impaired vesicular transport as being part of PPP1R21-related pathomechanism. To decipher further the pathophysiological processes leading to the clinical manifestation of NEDHFBA, we investigated the proteomic signature of fibroblasts derived from the first NEDHFBA patient harboring a splice-site mutation in PPP1R21 and presenting with a milder phenotype. Proteomic findings and further functional studies demonstrate a profound activation of the ubiquitin–proteasome system with presence of protein aggregates and impact on cellular fitness and moreover suggest a cross-link between activation of the proteolytic system and cytoskeletal architecture (including filopodia) as exemplified on paradigmatic proteins including actin, thus extending the pathophysiological spectrum of the disease. In addition, the proteomic signature of PPP1R21-mutant fibroblasts displayed a dysregulation of a variety of proteins of neurological relevance. This includes increase proteins which might act toward antagonization of cellular stress burden in terms of pro-survival, a molecular finding which might accord with the presentation of a milder phenotype of our NEDHFBA patient.
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    Identification of herbal teas and their compounds eliciting antiviral activity against SARS-CoV-2 in vitro
    (Heidelberg : Springer, 2022) Le-Trilling, Vu Thuy Khanh; Mennerich, Denise; Schuler, Corinna; Sakson, Roman; Lill, Julia K.; Kasarla, Siva Swapna; Kopczynski, Dominik; Loroch, Stefan; Flores-Martinez, Yulia; Katschinski, Benjamin; Wohlgemuth, Kerstin; Gunzer, Matthias; Meyer, Folker; Phapale, Prasad; Dittmer, Ulf; Sickmann, Albert; Trilling, Mirko
    Background: The SARS-CoV-2/COVID-19 pandemic has inflicted medical and socioeconomic havoc, and despite the current availability of vaccines and broad implementation of vaccination programs, more easily accessible and cost-effective acute treatment options preventing morbidity and mortality are urgently needed. Herbal teas have historically and recurrently been applied as self-medication for prophylaxis, therapy, and symptom alleviation in diverse diseases, including those caused by respiratory viruses, and have provided sources of natural products as basis for the development of therapeutic agents. To identify affordable, ubiquitously available, and effective treatments, we tested herbs consumed worldwide as herbal teas regarding their antiviral activity against SARS-CoV-2. Results: Aqueous infusions prepared by boiling leaves of the Lamiaceae perilla and sage elicit potent and sustained antiviral activity against SARS-CoV-2 when applied after infection as well as prior to infection of cells. The herbal infusions exerted in vitro antiviral effects comparable to interferon-β and remdesivir but outperformed convalescent sera and interferon-α2 upon short-term treatment early after infection. Based on protein fractionation analyses, we identified caffeic acid, perilla aldehyde, and perillyl alcohol as antiviral compounds. Global mass spectrometry (MS) analyses performed comparatively in two different cell culture infection models revealed changes of the proteome upon treatment with herbal infusions and provided insights into the mode of action. As inferred by the MS data, induction of heme oxygenase 1 (HMOX-1) was confirmed as effector mechanism by the antiviral activity of the HMOX-1-inducing compounds sulforaphane and fraxetin. Conclusions: In conclusion, herbal teas based on perilla and sage exhibit antiviral activity against SARS-CoV-2 including variants of concern such as Alpha, Beta, Delta, and Omicron, and we identified HMOX-1 as potential therapeutic target. Given that perilla and sage have been suggested as treatment options for various diseases, our dataset may constitute a valuable resource also for future research beyond virology.