14 research outputs found

    MODELLING CHRONIC MYELOID LEUKEMIA IN ZEBRAFISH

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    MODELLING CHRONIC MYELOID LEUKEMIA IN ZEBRAFISHMODELLING CHRONIC MYELOID LEUKEMIA IN ZEBRAFIS

    Books, Ballets, and Puppets: The Shelleys’ Milanese Experience

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    Introduction to the journal special issue for the bicentenary of the Shelleys' arrival in Milan in the spring 181

    The Shelleys in Milan, 1818-2018

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    Special issue for the bicentenary of the Shelleys' arrival in Italy in 181

    Verso una Pianificazione Olistica. Workshop di accompagnamento al Processo di Piano del Comune di Altavilla Irpina

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    Il volume illustra lo svolgimento di un workshop che inserito in un processo di Piano di un Comune irpino, ha costituito il principale momento di coinvolgimento della popolazione nell’ottica della pianificazione partecipata. La singolarità di tale esperienza riguarda l’approccio olistico ottenuto grazie all’apporto di diversi autori, docenti e corsisti di un master interdisciplinare del Politecnico di Milano rivolto alla formazione del PolisMaker. Il caso di studio, riguardante la valorizzazione di un borgo dell’Irpinia, risulta inoltre particolarmente significativo, per i diversi sguardi con cui è stato affrontato, superando atteggiamenti precostituiti spesso presenti nella pratica professionale

    Deficiency of AP1 Complex Ap1g1 in Zebrafish Model Led to Perturbation of Neurodevelopment, Female and Male Fertility; New Insight to Understand Adaptinopathies

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    In vertebrates, two homologous heterotetrameric AP1 complexes regulate the intracellular protein sorting via vesicles. AP-1 complexes are ubiquitously expressed and are composed of four different subunits: γ, β1, μ1 and σ1. Two different complexes are present in eukaryotic cells, AP1G1 (contains γ1 subunit) and AP1G2 (contains γ2 subunit); both are indispensable for development. One additional tissue-specific isoform exists for μ1A, the polarized epithelial cells specific to μ1B; two additional tissue-specific isoforms exist for σ1A: σ1B and σ1C. Both AP1 complexes fulfil specific functions at the trans-Golgi network and endosomes. The use of different animal models demonstrated their crucial role in the development of multicellular organisms and the specification of neuronal and epithelial cells. Ap1g1 (γ1) knockout mice cease development at the blastocyst stage, while Ap1m1 (μ1A) knockouts cease during mid-organogenesis. A growing number of human diseases have been associated with mutations in genes encoding for the subunits of adaptor protein complexes. Recently, a new class of neurocutaneous and neurometabolic disorders affecting intracellular vesicular traffic have been referred to as adaptinopathies. To better understand the functional role of AP1G1 in adaptinopathies, we generated a zebrafish ap1g1 knockout using CRISPR/Cas9 genome editing. Zebrafish ap1g1 knockout embryos cease their development at the blastula stage. Interestingly, heterozygous females and males have reduced fertility and showed morphological alterations in the brain, gonads and intestinal epithelium. An analysis of mRNA profiles of different marker proteins and altered tissue morphologies revealed dysregulated cadherin-mediated cell adhesion. These data demonstrate that the zebrafish model organism enables us to study the molecular details of adaptinopathies and thus also develop treatment strategies

    Development of BCR-ABL1 Transgenic Zebrafish Model Reproducing Chronic Myeloid Leukemia (CML) Like-Disease and Providing a New Insight into CML Mechanisms

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    Zebrafish has proven to be a versatile and reliable experimental in vivo tool to study human hematopoiesis and model hematological malignancies. Transgenic technologies enable the generation of specific leukemia types by the expression of human oncogenes under specific promoters. Using this technology, a variety of myeloid and lymphoid malignancies zebrafish models have been described. Chronic myeloid leukemia (CML) is a clonal myeloproliferative neoplasia characterized by the BCR-ABL1 fusion gene, derived from the t (9;22) translocation causing the Philadelphia Chromosome (Ph). The BCR-ABL1 protein is a constitutively activated tyrosine kinas inducing the leukemogenesis and resulting in an accumulation of immature leukemic cells into bone marrow and peripheral blood. To model Ph+ CML, a transgenic zebrafish line expressing the human BCR-ABL1 was generated by the Gal4/UAS system, and then crossed with the hsp70-Gal4 transgenic line. The new line named (BCR-ABL1pUAS:CFP/hsp70-Gal4), presented altered expression of hematopoietic markers during embryonic development compared to controls and transgenic larvae showed proliferating hematopoietic cells in the caudal hematopoietic tissue (CHT). The present transgenic zebrafish would be a robust CML model and a high-throughput drug screening tool

    Abstract B19: Disruption of energy homeostasis as an approach to block the proliferation of colon carcinomatosis

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    Abstract Strategies aimed at obtaining a complete cytoreduction are needed to improve long-term survival for patients with colorectal cancer peritoneal carcinomatosis (CRC-pc). We established organoid models that presented cancer stem cell characteristics from naïve CRC-pc surgical samples of two patients (C1 and C2). The organoids recapitulated their corresponding clinical samples in terms of 3D structure and immmunoistochemical profile and were enriched in LGR5 positive cancer stem cells. Proteomic analyses of organoids highlighted their strong dependence on energy producing pathways, suggesting that their targeting may be an effective therapeutic approach for the ablation of cancer cell malignancies. To test this hypothesis we treated organoids with an inhibitor of MIF/CD74 signaling axis, 4-iodo-6-phenylpyrimidine (4-IPP), and metformin, which inhibits mitochondrial oxidation. Both the drugs target metabolism acting on AMP-activated protein kinase (AMPK), the main regulator of cellular energy homeostasis. AMPK inhibits the major anabolic processes sustaining cancer cell proliferation and growth and confers cell plasticity to survive under conditions of metabolic stress, such as hypoxia and glucose deprivation, which is commonly observed in tumors with rapid growth. As a new finding we observed that treatment of organoids with 4-IPP resulted in decreased AMPK signaling activity, inducing a stress-signaling response and death of cultured organoids. Conversely, metformin treatment enhanced AMPK activation under energy stress, decreasing the activity of the anabolic factors ribosomal protein S6 and p4EBP-1 and inhibiting the mitochondrial activity, hindering cell proliferation. Furthermore, metformin treated organoids exhibited a Warburg-like metabolic profile. Our results show that organoid metabolism can be disrupted by metformin-induced AMPK activation but also through a strong reduction in AMPK functions caused by the removal of MIF/CD74 signaling axis that induces an irreversible disruption of energy homeostasis and ultimately causes cell death. Overall, we suggest that AMPK functions are crucial for energy metabolism of colorectal cancer peritoneal carcinomatosis, and regulation of AMPK activity could be a potential molecular target for the treatment of CRC-pc. Citation Format: Fabio Bozzi, Angela Mogavero, Luca Varinelli, Annunziata Gloghini, Valerio Leoni, Galina V. Beznoussenko, Alexandre A. Mironov, Ermanno Leo, Marco A. Pierotti, Italia Bongarzone, Manuela Gariboldi. Disruption of energy homeostasis as an approach to block the proliferation of colon carcinomatosis. [abstract]. In: Proceedings of the AACR Special Conference on Colorectal Cancer: From Initiation to Outcomes; 2016 Sep 17-20; Tampa, FL. Philadelphia (PA): AACR; Cancer Res 2017;77(3 Suppl):Abstract nr B19.</jats:p

    Hypoimmunogenic Human Pluripotent Stem Cells as a Powerful Tool for Liver Regenerative Medicine

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    Induced pluripotent stem cells (iPSC) have huge potential as cell therapy for various diseases, given their potential for unlimited self-renewal and capability to differentiate into a wide range of cell types. Although autologous iPSCs represents the ideal source for patient-tailored regenerative medicine, the high costs of the extensive and time-consuming production process and the impracticability for treating acute conditions hinder their use for broad applications. An allogeneic iPSC-based strategy may overcome these issues, but it carries the risk of triggering an immune response. So far, several approaches based on genome-editing techniques to silence human leukocyte antigen class I (HLA-I) or II (HLA-II) expression have been explored to overcome the immune rejection of allogeneic iPSCs. In this study, we employed the CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats/CRISPR associated protein 9) system to delete the &beta;2-Microglobulin (B2M) and the Class II Major Histocompatibility Complex Transactivator (CIITA) genes, essential for the correct surface expression of HLA-I and HLA-II proteins. The resulting hypoimmunogenic iPSC line has a normal karyotype, expresses the pluripotency stem cell markers, and is capable of differentiating into the three embryonic germ layers. Furthermore, we showed that it specifically retains the ability to differentiate towards different liver cells, such as endothelial-like cells, hepatocyte-like cells, and hepatic stellate-like cells. Our results indicate that hypoimmunogenic iPSCs could give a new cost-effective and off-the-shelf opportunity for cell therapy in liver diseases
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