Browsing by Subject "Inhibitor of Apoptosis Proteins"

Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    Survivin Modulates Genes with Divergent Molecular Functions and Regulates Proliferation of Hematopoietic Stem Cells through Evi-1
    (Nature Publishing Group, 2015-02) Fukuda, Seiji; Hoggatt, Jonathan; Singh, Pratibha; Abe, Mariko; Speth, Jennifer M.; Hu, Peirong; Conway, Edward M.; Nucifora, Giuseppina; Yamaguchi, Seiji; Pelus, Louis M.; Department of Microbiology & Immunology, IU School of Medicine
    The inhibitor of apoptosis protein Survivin regulates hematopoiesis, although its mechanisms of regulation of hematopoietic stem cells (HSCs) remain largely unknown. While investigating conditional Survivin deletion in mice, we found that Survivin was highly expressed in phenotypically defined HSCs and Survivin deletion in mice resulted in significantly reduced total marrow HSC and progenitor cells (HPC). Transcriptional analysis of Survivin−/− HSCs revealed altered expression of multiple genes not previously linked to Survivin activity. In particular, Survivin deletion significantly reduced expression of the Evi-1 transcription factor indispensable for HSC function, and the downstream Evi-1 target genes Gata2, Pbx1 and Sall2. The loss of HSCs following Survivin deletion and impaired long-term HSC repopulating function could be partially rescued by ectopic Evi-1 expression in Survivin −/− HSCs. These data demonstrate that Survivin partially regulates HSC function by modulating the Evi-1transcription factor and its downstream targets and identify new genetic pathways in HSCs regulated by Survivin.
  • Thumbnail Image
    Item
    Survivin-induced abnormal ploidy contributes to cystic kidney and aneurysm formation
    (Ovid Technologies Wolters Kluwer -American Heart Association, 2014-02-11) AbouAlaiwi, Wissam A.; Muntean, Brian S.; Ratnam, Shobha; Joe, Bina; Liu, Lijun; Booth, Robert L.; Rodriguez, Ingrid; Herbert, Britney S.; Bacallao, Robert L.; Fruttiger, Marcus; Mak, Tak W.; Zhou, Jing; Nauli, Surya M.; Department of Medical and Molecular Genetics, IU School of Medicine
    BACKGROUND: Cystic kidneys and vascular aneurysms are clinical manifestations seen in patients with polycystic kidney disease, a cilia-associated pathology (ciliopathy). Survivin overexpression is associated with cancer, but the clinical pathology associated with survivin downregulation or knockout has never been studied before. The present studies aim to examine whether and how cilia function (Pkd1 or Pkd2) and structure (Tg737) play a role in cystic kidney and aneurysm through survivin downregulation. METHODS AND RESULTS: Cysts and aneurysms from polycystic kidney disease patients, Pkd mouse, and zebrafish models are characterized by chromosome instability and low survivin expression. This triggers cytokinesis defects and formation of nuclear polyploidy or aneuploidy. In vivo conditional mouse and zebrafish models confirm that survivin gene deletion in the kidneys results in a cystic phenotype. As in hypertensive Pkd1, Pkd2, and Tg737 models, aneurysm formation can also be induced in vascular-specific normotensive survivin mice. Survivin knockout also contributes to abnormal oriented cell division in both kidney and vasculature. Furthermore, survivin expression and ciliary localization are regulated by flow-induced cilia activation through protein kinase C, Akt and nuclear factor-κB. Circumventing ciliary function by re-expressing survivin can rescue polycystic kidney disease phenotypes. CONCLUSIONS: For the first time, our studies offer a unifying mechanism that explains both renal and vascular phenotypes in polycystic kidney disease. Although primary cilia dysfunction accounts for aneurysm formation and hypertension, hypertension itself does not cause aneurysm. Furthermore, aneurysm formation and cyst formation share a common cellular and molecular pathway involving cilia function or structure, survivin expression, cytokinesis, cell ploidy, symmetrical cell division, and tissue architecture orientation.