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  1. Article ; Online: RAAS-deficient organoids indicate delayed angiogenesis as a possible cause for autosomal recessive renal tubular dysgenesis

    Naomi Pode-Shakked / Megan Slack / Nambirajan Sundaram / Ruth Schreiber / Kyle W. McCracken / Benjamin Dekel / Michael Helmrath / Raphael Kopan

    Nature Communications, Vol 14, Iss 1, Pp 1-

    2023  Volume 18

    Abstract: Abstract Autosomal Recessive Renal Tubular Dysgenesis (AR-RTD) is a fatal genetic disorder characterized by complete absence or severe depletion of proximal tubules (PT) in patients harboring pathogenic variants in genes involved in the Renin–Angiotensin– ...

    Abstract Abstract Autosomal Recessive Renal Tubular Dysgenesis (AR-RTD) is a fatal genetic disorder characterized by complete absence or severe depletion of proximal tubules (PT) in patients harboring pathogenic variants in genes involved in the Renin–Angiotensin–Aldosterone System. To uncover the pathomechanism of AR-RTD, differentiation of ACE-/- and AGTR1-/- induced pluripotent stem cells (iPSCs) and AR-RTD patient-derived iPSCs into kidney organoids is leveraged. Comprehensive marker analyses show that both mutant and control organoids generate indistinguishable PT in vitro under normoxic (21% O2) or hypoxic (2% O2) conditions. Fully differentiated (d24) AGTR1-/- and control organoids transplanted under the kidney capsule of immunodeficient mice engraft and mature well, as do renal vesicle stage (d14) control organoids. By contrast, d14 AGTR1-/- organoids fail to engraft due to insufficient pro-angiogenic VEGF-A expression. Notably, growth under hypoxic conditions induces VEGF-A expression and rescues engraftment of AGTR1-/- organoids at d14, as does ectopic expression of VEGF-A. We propose that PT dysgenesis in AR-RTD is primarily a non-autonomous consequence of delayed angiogenesis, starving PT at a critical time in their development.
    Keywords Science ; Q
    Subject code 616
    Language English
    Publishing date 2023-12-01T00:00:00Z
    Publisher Nature Portfolio
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  2. Article: Osr1 functions downstream of Hedgehog pathway to regulate foregut development

    Han, Lu / Aaron M. Zorn / Emily Grigg / Jingyue Xu / Megan Slack / Praneet Chaturvedi / Rulang Jiang

    Developmental biology. 2017 July 01, v. 427

    2017  

    Abstract: During early fetal development, paracrine Hedgehog (HH) ligands secreted from the foregut epithelium activate Gli transcription factors in the surrounding mesenchyme to coordinate formation of the respiratory system, digestive track and the ... ...

    Abstract During early fetal development, paracrine Hedgehog (HH) ligands secreted from the foregut epithelium activate Gli transcription factors in the surrounding mesenchyme to coordinate formation of the respiratory system, digestive track and the cardiovascular network. Although disruptions to this process can lead to devastating congenital defects, the underlying mechanisms and downstream targets, are poorly understood. We show that the zinc finger transcription factor Osr1 is a novel HH target as Osr1 expression in the foregut mesenchyme depends on HH signaling and the effector of HH pathway Gli3 binds to a conserved genomic loci near Osr1 promoter region. Molecular analysis of mouse germline Osr1 mutants reveals multiple functions of Osr1 during foregut development. Osr1 mutants exhibit fewer lung progenitors in the ventral foregut. Osr is then required for the proper branching of the primary lung buds, with mutants exhibiting miss-located lung lobes. Finally, Osr1 is essential for proper mesenchymal differentiation including pulmonary arteries, esophageal and tracheal smooth muscle as well as tracheal cartilage rings. Tissue specific conditional knockouts in combination with lineage tracing indicate that Osr1 is required cell autonomously in the foregut mesenchyme. We conclude that Osr1 is a novel downstream target of HH pathway, required for lung specification, branching morphogenesis and foregut mesenchymal differentiation.
    Keywords buds ; cartilage ; congenital abnormalities ; epithelium ; fetal development ; foregut ; germ cells ; ligands ; loci ; mice ; morphogenesis ; mutants ; promoter regions ; pulmonary artery ; respiratory system ; smooth muscle ; transcription factors ; zinc finger motif
    Language English
    Dates of publication 2017-0701
    Size p. 72-83.
    Publishing place Elsevier Inc.
    Document type Article
    ZDB-ID 1114-9
    ISSN 1095-564X ; 0012-1606
    ISSN (online) 1095-564X
    ISSN 0012-1606
    DOI 10.1016/j.ydbio.2017.05.005
    Database NAL-Catalogue (AGRICOLA)

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