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Abstract

Although transplanted pluripotent stem cell-derived neurons can contribute to functional recovery in animal models of Parkinson's disease, the risk of tumor formation hinders clinical applications of this approach. Removing undifferentiated cells from the donor population is critical to reduce tumorigenesis. Moreover, immature neural progenitors in transplants can proliferate unpredictably, resulting in neural overgrowth and long-term risks of compressing the surrounding host tissue. Because Notch signaling plays a role in maintaining the multipotency and proliferative capacity of neural progenitors, we used γ-secretase inhibitors (GSIs) to dampen Notch signaling in human-induced pluripotent stem cell-derived neural progenitors before transplantation and examined the effects on the growth of proliferative grafts. We observed a marked reduction in the percentage of dividing cells and increased neuronal maturation in GSI-treated samples in vitro. Next, grafts were transplanted into the striata of nonobese diabetic/severe combined immune deficiency mice. Histological analyses performed 8 weeks after the operation showed that grafts pretreated with GSIs—N-[N-(3,5-difluorophenacetyl)-l-alanyl]-S-phenylglycine t-butyl ester or compound E—were significantly smaller than control samples. Immunohistologic analyses revealed that briefly treating the donor population with GSIs not only reduced the graft volume, but also altered the composition of the graft; control grafts showed neural overgrowth with numerous PAX6⁺ and Ki67⁺ neural rosettes, whereas GSI-treated samples developed into mature neuronal grafts containing primarily Tubβ3⁺ cells. These results suggest that pretreating potentially proliferative progenitors with GSIs may improve the safety of cell replacement therapies using pluripotent stem cells.

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References

Bjorklund

, Lindvall

. 2000. Cell replacement therapies for central nervous system disorders. Nat Neurosci, 3:537.

Bjorklund

, Sánchez-Pernaute

, Chung

, Andersson

, Chen

, McNaught

, Brownell

, Jenkins

, Wahlestedt

, Kim

, Isacson

. 2002. Embryonic stem cells develop into functional dopaminergic neurons after transplantation in a Parkinson rat model. Proc Natl Acad Sci U S A, 99:2344–2349.

Nishimura

, Yoshikawa

, Kanda

, Nonaka

, Yokota

, Shiroi

, Nakase

, Hirabayashi

, Ouji

, Birumachi

. 2003. Potential use of embryonic stem cells for the treatment of mouse parkinsonian models: improved behavior by transplantation of in vitro differentiated dopaminergic neurons from embryonic stem cells. Stem Cells, 21:171–180.

Kim

, Chung

, Hwang

, Ferree

, Tsai

, Park

, Chung

, Nam

, Kang

, Isacson

, Kim

. 2006. Stromal cell-derived inducing activity, Nurr1, and signaling molecules synergistically induce dopaminergic neurons from mouse embryonic stem cells. Stem Cells, 24:557–567.

Roy

, Cleren

, Singh

, Yang

, Beal

, Goldman

. 2006. Functional engraftment of human ES cell-derived dopaminergic neurons enriched by coculture with telomerase-immortalized midbrain astrocytes. Nat Med, 12:1259–1268.

Morizane

, Takahashi

, Shinoyama

, Ideguchi

, Takagi

, Fukuda

, Koyanagi

, Sasai

, Hashimoto

. 2006. Generation of graftable dopaminergic neuron progenitors from mouse ES cells by a combination of coculture and neurosphere methods. J Neurosci Res, 83:1015–1027.

Pruszak

, Sonntag

, Aung

, Sanchez-Pernaute

, Isacson

. 2007. Markers and methods for cell sorting of human embryonic stem cell-derived neural cell populations. Stem Cells, 25:2257–2268.

Brederlau

, Correia

, Anisimov

, Elmi

, Paul

, Roybon

, Morizane

, Bergquist

, Riebe

et al. 2006. Transplantation of human embryonic stem cell-derived cells to a rat model of Parkinson's disease: effect of in vitro differentiation on graft survival and teratoma formation. Stem Cells, 24:1433–1440.

Doi

, Morizane

, Kikuchi

, Onoe

, Hayashi

, Kawasaki

, Motono

, Sasai

, Saiki

et al. 2012. Prolonged maturation culture favors a reduction in the tumorigenicity and the dopaminergic function of human ESC-derived neural cells in a primate model of Parkinson's disease. Stem Cells, 30:935–945.

10.

Fukuda

, Takahashi

, Watanabe

, Hayashi

, Morizane

, Koyanagi

, Sasai

, Hashimoto

. 2006. Fluorescence-activated cell sorting-based purification of embryonic stem cell-derived neural precursors averts tumor formation after transplantation. Stem Cells, 24:763–771.

11.

Chung

, Shin

, Hedlund

, Pruszak

, Ferree

, Kang

, Isacson

, Kim

. 2006. Genetic selection of sox1GFP-expressing neural precursors removes residual tumorigenic pluripotent stem cells and attenuates tumor formation after transplantation. J Neurochem, 97:1467–1480.

12.

Friling

, Andersson

, Thompson

, Jönsson

, Hebsgaard

, Nanou

, Alekseenko

, Marklund

, Kjellander

et al. 2009. Efficient production of mesencephalic dopamine neurons by Lmx1a expression in embryonic stem cells. Proc Natl Acad Sci U S A, 106:7613–7618.

13.

Elkabetz

, Panagiotakos

, Al Shamy

, Socci

, Tabar

, Studer

. 2008. Human ES cell-derived neural rosettes reveal a functionally distinct early neural stem cell stage. Genes Dev, 22:152–165.

14.

Hitoshi

, Seaberg

, Koscik

, Alexson

, Kusunoki

, Kanazawa

, Tsuji

, Kooy

. 2004. Primitive neural stem cells from the mammalian epiblast differentiate to definitive neural stem cells under the control of Notch signaling. Genes Dev, 18:1806–1811.

15.

Yoon

, Gaiano

. 2005. Notch signaling in the mammalian central nervous system: insights from mouse mutants. Nat Neurosci, 8:709–715.

16.

Louvi

, Artavanis-Tsakonas

. 2006. Notch signalling in vertebrate neural development. Nat Rev Neurosci, 7:93–102.

17.

Kageyama

, Ohtsuka

, Shimojo

, Imayoshi

. 2008. Dynamic Notch signaling in neural progenitor cells and a revised view of lateral inhibition. Nat Neurosci, 11:1247–1251.

18.

Hatakeyama

, Bessho

, Katoh

, Ookawara

, Fujioka

, Guillemot

, Kageyama

. 2004. Hes genes regulate size, shape and histogenesis of the nervous system by control of the timing of neural stem cell differentiation. Development, 131:5539–5550.

19.

Kaltezioti

, Kouroupi

, Oikonomaki

, Mantouvalou

, Stergiopoulos

, Charonis

, Rohrer

, Matsas

, Politis

. 2010. Prox1 regulates the notch1-mediated inhibition of neurogenesis. PLoS Biol, 8:e1000565.

20.

Borghese

, Dolezalova

, Opitz

, Haupt

, Leinhaas

, Steinfarz

, Koch

, Edenhofer

, Hampl

, Brüstle

. 2010. Inhibition of notch signaling in human embryonic stem cell-derived neural stem cells delays G1/S phase transition and accelerates neuronal differentiation in vitro and in vivo. Stem Cells, 28:955–964.

21.

Nakagawa

, Koyanagi

, Tanabe

, Takahashi

, Ichisaka

, Aoi

, Okita

, Mochiduki

, Takizawa

, Yamanaka

. 2008. Generation of induced pluripotent stem cells without Myc from mouse and human fibroblasts. Nat Biotechnol, 26:101–106.

22.

Okita

, Matsumura

, Sato

, Okada

, Morizane

, Okamoto

, Hong

, Nakagawa

, Tanabe

et al. 2011. A more efficient method to generate integration-free human iPS cells. Nat Methods, 8:409–412.

23.

Eiraku

, Watanabe

, Matsuo-Takasaki

, Kawada

, Yonemura

, Matsumura

, Wataya

, Nishiyama

, Muguruma

, Sasai

. 2008. Self-organized formation of polarized cortical tissues from ESCs and its active manipulation by extrinsic signals. Cell Stem Cell, 3:519–532.

24.

Watanabe

, Ueno

, Kamiya

, Nishiyama

, Matsumura

, Wataya

, Takahashi

, Nishikawa

, Muguruma

, Sasai

. 2007. A ROCK inhibitor permits survival of dissociated human embryonic stem cells. Nat Biotechnol, 25:681–686.

25.

Morizane

, Doi

, Kikuchi

, Nishimura

, Takahashi

. 2011. Small-molecule inhibitors of bone morphogenic protein and activin/nodal signals promote highly efficient neural induction from human pluripotent stem cells. J Neurosci Res, 89:117–126.

26.

Kornilova

, Das

, Wolfe

. 2003. Differential effects of inhibitors on the γ-secretase complex. J Biol Chem, 278:16470–16473.

27.

Tsai

, Lee

, Hayashi

, Freed

, Su

. 2010. Delta opioid peptide DADLE and naltrexone cause cell cycle arrest and differentiation in a CNS neural progenitor cell line. Synapse, 64:267–273.

28.

Abercrombie

. 1946. Estimation of nuclear population from microtome sections. Anat Rec, 94:239–247.

29.

Lowell

, Benchoua

, Heavey

, Smith

. 2006. Notch promotes neural lineage entry by pluripotent embryonic stem cells. PLoS Biol, 4:e121.805–818.

30.

Nelson

, Hartman

, Georgi

, Lan

, Reh

. 2007. Transient inactivation of Notch signaling synchronizes differentiation of neural progenitor cells. Dev Biol, 304:479–498.

31.

Nagao

, Sugimori

, Nakafuku

. 2007. Cross talk between notch and growth factor/cytokine signaling pathways in neural stem cells. Mol Cell Biol, 27:3982–3994.

32.

Shimojo

, Ohtsuka

, Kageyama

. 2008. Oscillations in notch signaling regulate maintenance of neural progenitors. Neuron, 58:52–64.

33.

Searfoss

, Jordan

, Calligaro

, Galbreath

, Schirtzinger

, Berridge

, Gao

, Higgins

, May

, Ryan

. 2003. Adipsin, a biomarker of gastrointestinal toxicity mediated by a functional γ-secretase inhibitor. J Biol Chem, 278:46107–46116.

34.

Wong

, Manfra

, Poulet

, Zhang

, Josien

, Bara

, Engstrom

, Pinzon-Ortiz

, Fine

et al. 2004. Chronic treatment with the γ-secretase inhibitor LY-411,575 inhibits β-amyloid peptide production and alters lymphopoiesis and intestinal cell differentiation. J Biol Chem, 279:12876–12882.

35.

Extance

. 2010. Alzheimer's failure raises questions about disease-modifying strategies. Nat Rev Drug Discov, 9:749–751.

36.

Anisimov

, Morizane

, Correia

. 2010. Risks and mechanisms of oncological disease following stem cell transplantation. Stem Cell Rev Rep, 6:411–424.

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γ-Secretase Inhibitors Prevent Overgrowth of Transplanted Neural Progenitors Derived from Human-Induced Pluripotent Stem Cells

Abstract

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