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Literature DB >> 24802280

Importance of cell-cell contact in the therapeutic benefits of cardiosphere-derived cells.

Yucai Xie¹, Ahmed Ibrahim, Ke Cheng, Zhijun Wu, Wenbin Liang, Konstantinos Malliaras, Baiming Sun, Weixin Liu, Deliang Shen, Hee Cheol Cho, Taosheng Li, Lin Lu, Guoping Lu, Eduardo Marbán.

Abstract

Cardiosphere-derived cells (CDCs) effect therapeutic regeneration after myocardial infarction (MI) both in animal models and in humans. Here, we test the hypothesis that cell-cell contact plays a role in mediating the observed therapeutic benefits of CDCs, above and beyond conventional paracrine effects. Human CDCs or vehicle were injected into immunodeficient (SCID) mouse hearts during acute MI. CDC transplantation augmented the proportion of cycling (Ki67(+) ) cardiomyocytes and improved ventricular function. CDC-conditioned media only modestly augmented the percentage of Ki67(+) cardiomyocytes (>control but <CDCs), but did not improve pump function. When neonatal rat ventricular myocytes (NRVMs) were cocultured with human CDCs in vitro, the percentage of cycling NRVMs (Ki67(+) or BrdU(+) nuclei) increased relative to solitary NRVM culture. To further dissect the relative contributions of soluble factors versus contact-dependent mechanisms, we compared CDCs grown with NRVMs in a transwell contact-free system versus admixed coculture. The percentage of cycling NRVMs was higher in admixed coculture than in the contact-free system. Pretreatment with inhibitors of MEK and PI3K, or with β1 integrin neutralizing antibody, blocked the ability of CDCs to promote myocyte cycling. While conditioned media are not inert, direct apposition of CDCs to cardiomyocytes produces greater enhancement of cardiomyocyte proliferation in vitro and in vivo, and improves function post-MI. Intact cardiomyocyte β1 integrin signaling is necessary for the contact-dependent cardioproliferative effects of CDCs.

Entities: Chemical Disease Gene Species

Keywords: Cardiomyocyte; Cardiosphere-derived cells; Cell-cell communication; Paracrine factors; Proliferation; β1 integrin

Mesh：

Substances：
Integrin beta1

Year: 2014 PMID： 24802280 PMCID： PMC4138271 DOI： 10.1002/stem.1736

Source DB: PubMed Journal: Stem Cells ISSN： 1066-5099 Impact factor: 6.277

38 in total

1. Direct comparison of different stem cell types and subpopulations reveals superior paracrine potency and myocardial repair efficacy with cardiosphere-derived cells.

Authors: Tao-Sheng Li; Ke Cheng; Konstantinos Malliaras; Rachel Ruckdeschel Smith; Yiqiang Zhang; Baiming Sun; Noriko Matsushita; Agnieszka Blusztajn; John Terrovitis; Hideo Kusuoka; Linda Marbán; Eduardo Marbán
Journal: J Am Coll Cardiol Date: 2012-03-06 Impact factor: 24.094

2. Transcriptional suppression of connexin43 by TBX18 undermines cell-cell electrical coupling in postnatal cardiomyocytes.

Authors: Nidhi Kapoor; Giselle Galang; Eduardo Marbán; Hee Cheol Cho
Journal: J Biol Chem Date: 2011-01-04 Impact factor: 5.157

3. Transplantation of platelet gel spiked with cardiosphere-derived cells boosts structural and functional benefits relative to gel transplantation alone in rats with myocardial infarction.

Authors: Ke Cheng; Deliang Shen; Jeremy Smith; Giselle Galang; Baiming Sun; Jinying Zhang; Eduardo Marbán
Journal: Biomaterials Date: 2012-01-13 Impact factor: 12.479

4. Intrinsic cardiac origin of human cardiosphere-derived cells.

Authors: Anthony J White; Rachel R Smith; Satoshi Matsushita; Tarun Chakravarty; Lawrence S C Czer; Kevin Burton; Ernst R Schwarz; Darryl R Davis; Qi Wang; Nancy L Reinsmoen; James S Forrester; Eduardo Marbán; Raj Makkar
Journal: Eur Heart J Date: 2011-06-09 Impact factor: 29.983

5. Safety and efficacy of allogeneic cell therapy in infarcted rats transplanted with mismatched cardiosphere-derived cells.

Authors: Konstantinos Malliaras; Tao-Sheng Li; Daniel Luthringer; John Terrovitis; Ke Cheng; Tarun Chakravarty; Giselle Galang; Yiqiang Zhang; Florian Schoenhoff; Jennifer Van Eyk; Linda Marbán; Eduardo Marbán
Journal: Circulation Date: 2011-11-15 Impact factor: 29.690

6. De novo cardiomyocytes from within the activated adult heart after injury.

Authors: Nicola Smart; Sveva Bollini; Karina N Dubé; Joaquim M Vieira; Bin Zhou; Sean Davidson; Derek Yellon; Johannes Riegler; Anthony N Price; Mark F Lythgoe; William T Pu; Paul R Riley
Journal: Nature Date: 2011-06-08 Impact factor: 49.962

7. Mitotically inactivated embryonic stem cells can be used as an in vivo feeder layer to nurse damaged myocardium after acute myocardial infarction: a preclinical study.

Authors: Richard K Burt; You-hong Chen; Larissa Verda; Carolina Lucena; Shankararao Navale; Jesse Johnson; Xiaoqiang Han; Jon Lomasney; Jessa M Baker; Ka-Leung Ngai; Aya Kino; James Carr; Jan Kajstura; Piero Anversa
Journal: Circ Res Date: 2012-08-22 Impact factor: 17.367

8. Intracoronary cardiosphere-derived cells for heart regeneration after myocardial infarction (CADUCEUS): a prospective, randomised phase 1 trial.

Authors: Raj R Makkar; Rachel R Smith; Ke Cheng; Konstantinos Malliaras; Louise Ej Thomson; Daniel Berman; Lawrence Sc Czer; Linda Marbán; Adam Mendizabal; Peter V Johnston; Stuart D Russell; Karl H Schuleri; Albert C Lardo; Gary Gerstenblith; Eduardo Marbán
Journal: Lancet Date: 2012-02-14 Impact factor: 79.321

9. Early stem cell engraftment predicts late cardiac functional recovery: preclinical insights from molecular imaging.

Authors: Junwei Liu; Kazim H Narsinh; Feng Lan; Li Wang; Patricia K Nguyen; Shijun Hu; Andrew Lee; Leng Han; Yongquan Gong; Mei Huang; Divya Nag; Jarrett Rosenberg; Alexandra Chouldechova; Robert C Robbins; Joseph C Wu
Journal: Circ Cardiovasc Imaging Date: 2012-05-07 Impact factor: 7.792

10. Mammalian heart renewal by pre-existing cardiomyocytes.

Authors: Samuel E Senyo; Matthew L Steinhauser; Christie L Pizzimenti; Vicky K Yang; Lei Cai; Mei Wang; Ting-Di Wu; Jean-Luc Guerquin-Kern; Claude P Lechene; Richard T Lee
Journal: Nature Date: 2012-12-05 Impact factor: 49.962

33 in total

1. Comparative Efficacy of Intracoronary Allogeneic Mesenchymal Stem Cells and Cardiosphere-Derived Cells in Swine with Hibernating Myocardium.

Authors: Brian R Weil; Gen Suzuki; Merced M Leiker; James A Fallavollita; John M Canty
Journal: Circ Res Date: 2015-08-13 Impact factor: 17.367

Review 2. Body builder: from synthetic cells to engineered tissues.

Authors: Shiqi Hu; Brenda M Ogle; Ke Cheng
Journal: Curr Opin Cell Biol Date: 2018-04-25 Impact factor: 8.382

3. Cadaveric cardiosphere-derived cells can maintain regenerative capacity and improve the heart function of cardiomyopathy.

Authors: Yong Sun; Di Chi; Miaoxin Tan; Kai Kang; Maomao Zhang; Xiangyuan Jin; Xiaoping Leng; Rui Cao; Xianglan Liu; Bo Yu; Jian Wu
Journal: Cell Cycle Date: 2016-04-08 Impact factor: 4.534

Review 4. The Biological Mechanisms of Action of Cardiac Progenitor Cell Therapy.

Authors: Francesca Pagano; Vittorio Picchio; Francesco Angelini; Alessandra Iaccarino; Mariangela Peruzzi; Elena Cavarretta; Giuseppe Biondi-Zoccai; Sebastiano Sciarretta; Elena De Falco; Isotta Chimenti; Giacomo Frati
Journal: Curr Cardiol Rep Date: 2018-08-13 Impact factor: 2.931

Review 5. Making it stick: chasing the optimal stem cells for cardiac regeneration.

Authors: Pearl Quijada; Mark A Sussman
Journal: Expert Rev Cardiovasc Ther Date: 2014-11

6. Cell surface glycoengineering improves selectin-mediated adhesion of mesenchymal stem cells (MSCs) and cardiosphere-derived cells (CDCs): Pilot validation in porcine ischemia-reperfusion model.

Authors: Chi Y Lo; Brian R Weil; Beth A Palka; Arezoo Momeni; John M Canty; Sriram Neelamegham
Journal: Biomaterials Date: 2015-09-25 Impact factor: 12.479