başkent üniversitesi tıp fakültesi çocuk sağlığı ve hastalıkları ...

More documents

Recommendations

Info

16. Mackenzie B, Garrick MD. Iron imports. II. Iron uptake at the apical membrane in the intestine. Am J Physiol Gastrointest Liver Physiol 289: 981–986, 2005. 17. Donovan A, Brownlie A, Zhou Y, Shepard J, Pratt SJ, Moynihan J, Paw BH, Drejer A, Barut B, Zapata A, Law TC, Brugnara C, Lux SE, Pinkus GS, Pinkus JL, Kingsley PD,Palis J, Fleming MD, Andrews NC, Zon LI. Positional cloning of zebrafish ferroportin1 identifies a conservedvertebrate iron exporter. Nature 403: 776–781, 2000. 18. McKie AT, Marciani P, Rolfs A, Brennan K, Wehr K, BarrowD, Miret S, Bomford A, Peters TJ, Farzaneh F, Hediger MA, Hentze MW, Simpson RJ. A novel duodenal ironregulated transporter, IREG1, implicated in the basolateral transfer of iron to the circulation. Mol Cell 5: 299–309, 2000. 19. Abboud S, Haile DJ. A novel mammalian iron-regulated protein involved in intracellular iron metabolism. J Biol Chem 275: 19906–19912, 2000. 20. Donovan A, Lima CA, Pinkus JL, Pinkus GS, Zon LI, Robine S, Andrews NC: The iron exporter ferroportin/Slc40a1 is essential for iron homeostasis. Cell Metabolism 1: 191–200, 2005. 21. Meyron-Holtz EG, Ghosh MC, Iwai K, LaVaute T, Brazzolotto X, Berger UV, Land W, Ollivierre-Wilson H, Grinberg A, Love P, Rouault TA. Genetic ablations of iron regulatory proteins 1 and 2 reveal why iron regulatory protein 2 dominates iron homeostasis. EMBO J 23: 386–395, 2004. 22. Smith SR, Ghosh MC, Ollivierre-Wilson H, Hang Tong W, Rouault TA. Complete loss of iron regulatory proteins 1 and 2 prevents viability of murine zygotes beyond the blastocyst stage of embryonic development. Blood Cells Mol Dis 36: 283–287, 2006. 23. Andrews NC. Forging a field: the golden age of iron biology. Blood 112: 219–230, 2008. 24. Casey JL, Hentze MW, Koeller DM, Caughman SW, Rouault TA, Klausner RD, Harford JB. Iron-responsive elements: regulatory RNA sequences that control mRNA levels and translation. Science 240: 924–928, 1988. 25. Caughman SW, Hentze MW, Rouault TA, Harford JB, Klausner RD. The iron-responsive element is the single element responsible for iron-dependent translational regulation of ferritin biosynthesis: evidence for function as the binding site for a translational repressor. J Biol Chem 263: 19048–19052, 1988. 26. Hentze MW, Caughman SW, Rouault TA, Barriocanal JG, Dancis A, Harford JB, Klausner RD. Identification of the iron-responsive element for the translational regulation of human ferritin mRNA. Science 238: 1570–1573, 1987. 27. Leibold EA, Munro HN. Cytoplasmic protein binds in vitro to a highly conserved sequence in the 5’untranslated region of ferritin heavy- and lightsubunit mRNAs. Proc Natl Acad Sci U S A 85: 2171–2175, 1988.
28. Rouault TA, Hentze MW, Caughman SW, Harford JB, Klausner RD. Binding of a cytosolic protein to the iron-responsive element of human ferritin messenger RNA. Science 241: 1207–1210, 1988. 29. Eisenstein RS. Iron regulatory proteins and the molecular control of mammalian iron metabolism. Annu Rev Nutr 20: 627–62, 2000. 30. Cooperman SS, Meyron-Holtz EG, Olivierre-Wilson H, Ghosh MC, McConnell JP, Rouault TA. Microcytic anemia, erythropoietic protoporphyria and neurodegeneration in mice with targeted deletion of iron regulatory protein 2. Blood 106: 1084–1091, 2005. 31. Galy B, Ferring D, Minana B, Bell O, Janser HG, Muckenthaler M, Schümann K, Hentze MW. Altered body iron distribution and microcytosis in mice deficient in iron regulatory protein 2 (IRP2). Blood 106: 2580–2589, 2005. 32. Roy CN, Enns CA. Iron homeostasis: new tales from the crypt. Blood 96: 4020–4027, 2000. 33. Schulz A, Forssmann WG, Schulz-Knappe P, Krause A, Neitz S, Magert HJ, Schulz A, Forssmann WG, Schulz-Knappe P, Adermann K. LEAP-1, a novel highly disulfide-bonded human peptide, exhibits antimicrobial activity. FEBS Lett 480: 147–150, 2000. 34. Kulaksiz H, Gehrke SG, Janetzko A, Rost D, Bruckner T, Kallinowski B, Stremmel W. Pro-hepcidin: expression and cell specific localisation in the liver and its regulation in hereditary haemochromatosis, chronic renal insufficiency, and renal anaemia. Gut 53: 735-43, 2004. 35. Nicolas G, Bennoun M, Devaux I, Beaumont C, Grandchamp B, Kahn A, Vaulont S. Lack of hepcidin gene expression and severe tissue iron overload in upstream stimulatory factor 2 (USF2) knockout mice. Proc Natl Acad Sci U S A 98: 8780–8785, 2001. 36. Nicolas G, Bennoun M, Porteu A, Mativet S, Beaumont C, Grandchamp B, Sirito M, Sawadogo M, Kahn A, Vaulont S. Severe iron deficiency anemia in transgenic mice expressing liver hepcidin. Proc Natl Acad Sci U S A 99: 4596–4601, 2002. 37. Viatte L, Lesbordes-Brion JC, Lou DQ, Bennoun M, Nicolas G, Kahn A, Canonne- Hergaux F, Vaulont S. Deregulation of proteins involved in iron metabolism in hepcidindeficient mice. Blood 105: 4861–4864, 2005. 38. Roetto A, Papanikolaou G, Politou M, Alberti F, Girelli D, Christakis J, Loukopoulos D, Camaschella C. Mutant antimicrobial peptide hepcidin is associated with severe juvenile hemochromatosis. Nat Genet 33: 21–22, 2003. 39. Weinstein DA, Roy CN, Fleming MD, Loda MF, Wolfsdorf JI, Andrews NC. Inappropriate expression of hepcidin is associated with iron refractory anemia: Implications for the anemia of chronic disease. Blood 100: 3776–3781, 2002. 40. Tomosugi N, Kawabata H, Wakatabe R, Higuchi M, Yamaya H, Umehara H, Ishikawa I. Detection of serum hepcidin in renal failure and inflammation by using Protein-Chip System. Blood 108: 1381–1387, 2006.
Page 1 and 2:
BAŞKENT ÜNİVERSİTESİ TIP FAKÜ
Page 3 and 4:
TEŞEKKÜR Ülkemizde değerli bir
Page 5 and 6:
(koagülopati, anemi, lökopeni, tr
Page 7 and 8:
decreased after transplantation. Be
Page 9 and 10:
3. GEREÇ VE YÖNTEM……………
Page 11 and 12:
ŞEKİLLER Sayfa Şekil 2.1. Sağl
Page 13 and 14:
1. GİRİŞ Hepsidin, demir metabol
Page 15 and 16:
kanamalar yoluyla olmaktadır. Bunu
Page 17 and 18: Enterosit ömrü yaklaşık iki gü
Page 19 and 20: organizmanın demire olan ihtiyacı
Page 21 and 22: 10, 11, 13, 23). Eritropoetik düze
Page 23 and 24: ürünleri saptanmaktadır (1, 6).
Page 25 and 26: Kemik morfogenetik proteinlerin hü
Page 27 and 28: ajanlarla eritropoezisi inhibe eder
Page 29 and 30: 2.1.4.3. Hepsidin ve Demir Birikim
Page 31 and 32: saptanmış olup %86’sında etken
Page 33 and 34: Karaciğer alıcılarında çeşitl
Page 35 and 36: Canlı karaciğer vericilerinden na
Page 37 and 38: 3.6. İstatistiksel Analiz Sürekli
Page 39 and 40: dönemde de yapıldı ve bu değerl
Page 41 and 42: Hemoglobin (g/dL) Eritrosit/mikroL(
Page 43 and 44: Prohepsidin (ng/mL) 240 220 200 180
Page 45 and 46: Serum demiri (mikrogram/dL) Tf sat
Page 47 and 48: ALT ve AST (İU/L) ALP (İÜ/L) Alb
Page 49 and 50: 4.6. Hastalarda Saptanan Hematoloji
Page 51 and 52: Eritrosit süspansiyonu verilen has
Page 53 and 54: Nakil öncesi serum prohepsidin, KD
Page 55 and 56: Hastalık grupları karşılaştır
Page 57 and 58: yetmezliği, PTLD ve özellikle ço
Page 59 and 60: Ancak bizim çalışmamızda nakil
Page 61 and 62: durumun bir arada olması halinde i
Page 63 and 64: değiştirilmesinin hemen ardından
Page 65 and 66: 6. SONUÇLAR ve ÖNERİLER 1. Karac
Page 67: 7. KAYNAKLAR 1. Park CH, Valore EV,
Page 71 and 72: 54. Pietrangelo A, Dierssen U, Vall
Page 73 and 74: 82. Papanikolaou G, Tzilianos M, Ch
Page 75 and 76: 108. Cattral MS, Langnas AN, Markin
show all

başkent üniversitesi tıp fakültesi çocuk sağlığı ve hastalıkları ...

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?