Human Blood Vessel Organoids Penetrate Human Cerebral Organoids and Form a Vessel-Like System

被引:58
作者
Ahn, Yujin [1 ,2 ]
An, Ju-Hyun [1 ,2 ]
Yang, Hae-Jun [1 ]
Lee, Dong Gil [1 ]
Kim, Jieun [1 ,3 ]
Koh, Hyebin [1 ,2 ]
Park, Young-Ho [1 ]
Song, Bong-Seok [1 ]
Sim, Bo-Woong [1 ]
Lee, Hong J. [4 ,5 ]
Lee, Jong-Hee [2 ,6 ]
Kim, Sun-Uk [1 ,2 ]
机构
[1] Korea Res Inst Biosci & Biotechnol KRIBB, Futurist Anim Resource & Res Ctr FARRC, Ochang 28116, South Korea
[2] Korea Univ Sci & Technol, KRIBB Sch Biosci, Dept Funct Genom, Daejeon 34113, South Korea
[3] Catholic Univ Korea, Coll Med, Dept Med Life Sci, Seoul 06591, South Korea
[4] Chungbuk Natl Univ, Coll Med & Med Res Inst, Cheongju 28644, South Korea
[5] eBiogen Inc, Res Inst, Seoul 04785, South Korea
[6] Korea Res Inst Biosci & Biotechnol KRIBB, Natl Primate Res Ctr NPRC, Ochang 28116, South Korea
来源
CELLS | 2021年 / 10卷 / 08期
基金
新加坡国家研究基金会;
关键词
vascularization; blood vessel organoid; cerebral organoid; blood-brain barrier; vessel structure; organoids; blood vessel formation; brain organoid; IN-VITRO; DISRUPTION;
D O I
10.3390/cells10082036
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
Vascularization of tissues, organoids and organ-on-chip models has been attempted using endothelial cells. However, the cultured endothelial cells lack the capacity to interact with other somatic cell types, which is distinct from developing vascular cells in vivo. Recently, it was demonstrated that blood vessel organoids (BVOs) recreate the structure and functions of developing human blood vessels. However, the tissue-specific adaptability of BVOs had not been assessed in somatic tissues. Herein, we investigated whether BVOs infiltrate human cerebral organoids and form a blood-brain barrier. As a result, vascular cells arising from BVOs penetrated the cerebral organoids and developed a vessel-like architecture composed of CD31(+) endothelial tubes coated with SMA(+) or PDGFR(+) mural cells. Molecular markers of the blood-brain barrier were detected in the vascularized cerebral organoids. We revealed that BVOs can form neural-specific blood-vessel networks that can be maintained for over 50 days.
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页数:12
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共 26 条
  • [1] Protein markers of cerebrovascular disruption of neurovascular unit: immunohistochemical and imaging approaches
    Amtul, Zareen
    Hepburn, Jeffrey D.
    [J]. REVIEWS IN THE NEUROSCIENCES, 2014, 25 (04) : 481 - 507
  • [2] Pericytes regulate the blood-brain barrier
    Armulik, Annika
    Genove, Guillem
    Mae, Maarja
    Nisancioglu, Maya H.
    Wallgard, Elisabet
    Niaudet, Colin
    He, Liqun
    Norlin, Jenny
    Lindblom, Per
    Strittmatter, Karin
    Johansson, Bengt R.
    Betsholtz, Christer
    [J]. NATURE, 2010, 468 (7323) : 557 - U231
  • [3] Blood-brain-barrier organoids for investigating the permeability of CNS therapeutics
    Bergmann, Sonja
    Lawler, Sean E.
    Qu, Yuan
    Fadzen, Colin M.
    Wolfe, Justin M.
    Regan, Michael S.
    Pentelute, Bradley L.
    Agar, Nathalie Y. R.
    Cho, Choi-Fong
    [J]. NATURE PROTOCOLS, 2018, 13 (12) : 2827 - 2843
  • [4] Cell stress in cortical organoids impairs molecular subtype specification
    Bhaduri, Aparna
    Andrews, Madeline G.
    Mancia Leon, Walter
    Jung, Diane
    Shin, David
    Allen, Denise
    Jung, Dana
    Schmunk, Galina
    Haeussler, Maximilian
    Salma, Jahan
    Pollen, Alex A.
    Nowakowski, Tomasz J.
    Kriegstein, Arnold R.
    [J]. NATURE, 2020, 578 (7793) : 142 - +
  • [5] Vascular endothelial growth factor receptor 3 directly regulates murine neurogenesis
    Calvo, Charles-Felix
    Fontaine, Romain H.
    Soueid, Jihane
    Tammela, Tuomas
    Makinen, Taija
    Alfaro-Cervello, Clara
    Bonnaud, Fabien
    Miguez, Andres
    Benhaim, Lucile
    Xu, Yunling
    Barallobre, Maria-Jose
    Moutkine, Imane
    Lyytikka, Johannes
    Tatlisumak, Turgut
    Pytowski, Bronislaw
    Zalc, Bernard
    Richardson, William
    Kessaris, Nicoletta
    Manuel Garcia-Verdugo, Jose
    Alitalo, Kari
    Eichmann, Anne
    Thomas, Jean-Leon
    [J]. GENES & DEVELOPMENT, 2011, 25 (08) : 831 - 844
  • [6] Blood-brain-barrier spheroids as an in vitro screening platform for brain-penetrating agents
    Cho, Choi-Fong
    Wolfe, Justin M.
    Fadzen, Colin M.
    Calligaris, David
    Hornburg, Kalvis
    Chiocca, E. Antonio
    Agar, Nathalie Y. R.
    Pentelute, Bradley L.
    Lawler, Sean E.
    [J]. NATURE COMMUNICATIONS, 2017, 8
  • [7] Comparative Evaluation of Hormones and Hormone-Like Molecule in Lineage Specification of Human Induced Pluripotent Stem Cells
    Choi, Seon-A
    An, Ju-Hyun
    Lee, Seung Hwan
    Lee, Geun-Hui
    Yang, Hae-Jun
    Jeong, Pil-Soo
    Cha, Jae-Jin
    Lee, Sanghoon
    Park, Young-Ho
    Song, Bong-Seok
    Sim, Bo-Woong
    Kim, Young-Hyun
    Kim, Ji-Su
    Jin, Yeung Bae
    Huh, Jae-Won
    Lee, Sang-Rae
    Lee, Jong-Hee
    Kim, Sun-Uk
    [J]. INTERNATIONAL JOURNAL OF STEM CELLS, 2019, 12 (02) : 240 - 250
  • [8] Endothelial NT-3 Delivered by Vasculature and CSF Promotes Quiescence of Subependymal Neural Stem Cells through Nitric Oxide Induction
    Delgado, Ana C.
    Ferron, Sacri R.
    Vicente, Diana
    Porlan, Eva
    Perez-Villalba, Ana
    Trujillo, Carmen M.
    D'Ocon, Pilar
    Farinas, Isabel
    [J]. NEURON, 2014, 83 (03) : 572 - 585
  • [9] Engineering Organoid Vascularization
    Grebenyuk, Sergei
    Ranga, Adrian
    [J]. FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY, 2019, 7 (MAR)
  • [10] Vascular endothelial growth factor (VEGF) stimulates neurogenesis in vitro and in vivo
    Jin, KL
    Zhu, YH
    Sun, YJ
    Mao, XO
    Xie, L
    Greenberg, DA
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2002, 99 (18) : 11946 - 11950
123