Stromal STAT5-mediated trophic activity regulates hematopoietic multipotent progenitor niche factors
PreprintsZhengqi Wang, Grace Emmel, Hong Seo Lim, Wandi Zhu, Astrid Kosters, Eliver Ghosn, Peng Qiu, Kevin Bunting
Zhengqi Wang, Grace Emmel, Hong Seo Lim, Wandi Zhu, Astrid Kosters, Eliver Ghosn, Peng Qiu, Kevin Bunting
Wenbin An, Maria Feola, Srinivas Aluri, Marc Ruiz-Martinez, Ashwin Sridharan, Maayan Levy, Eitan Fibach, Xiaofan Zhu, Amit K Verma, Yelena Ginzburg
Hongwei Cai, Zheng Ao, Chunhui Tian, Zhuhao Wu, Connor Kaurich, Zi Chen, Mingxia Gu, Andrea G. Hohmann, Ken Mackie, Feng Guo
Kevin Yl Ho, Rosalyn L Carr, Alexandra D Dvoskin, Guy Tanentzapf
Dennis May, Sangwon Yun, David Gonzalez, Sangbum Park, Yanbo Chen, Elizabeth Lathrop, Biao Cai, Tianchi Xin, Hong-Yu Zhao, Siyuan Wang, Lauren E Gonzalez, Katie Cockburn, Valentina Greco
Benyamin Rosental, Shani Talice, Shany Barkan, Grace Snyder, Aner Ottolenghi, Shir Eliachar, Ronit Ben-Romano, Shelly Oisher, Ton Sharoni, Magda Lewandowska, Eliya Sultan, Oron Goldstein, Reuven Aharoni, Uzi Hadad,
Denise Ragusa, Chun Wai Suen, Gabriel Torregrosa Cortes, Liza Dijkhuis, Connor Byrne, Giulia-Andreea Ionescu, Joana Cerveira, Kamil R Kranc, Anna Bigas, Jordi Garcia-Ojalvo, Alfonso Martinez Arias, Cristina Pina
Scientists at the UNC School of Medicine have made a significant advance in the promising field of cellular reprogramming and organ regeneration, and the discovery could play a major role in future medicines to heal damaged hearts.
Three babies have been born after receiving the world’s first spina bifida treatment combining surgery with stem cells. This was made possible by a landmark clinical trial at UC Davis Health known formally as the “CuRe Trial: Cellular Therapy for In Utero Repair of Myelomeningocele.”
Luke D Roberts, Amanda K. E. Hornsby, Alanna Thomas, Martina Sassi, Aimee Kinzett, Nathan Hsiao, Bethan R David, Mark Good, Timothy Wells, Jeffrey S Davies
Yung-Chang Lu, Tsung-Chuan Ho, Chang-Hung Huang, Shu-I Yeh, Show-Li Chen, Yeou-Ping Tsao
Rasul Khasanov, Daniel Svoboda, María Ángeles Tapia-Laliena, Martina Kohl, Silke Maas-Omlor, Cornelia Irene Hagl, Lucas M. Wessel, Karl-Herbert Schäfer
Mi Jin Kim, Ji Min Lee, Kyunghoon Min, Yong-Soo Choi
Ryan N. Ptashkin, Mark D. Ewalt, Gowtham Jayakumaran, Iwona Kiecka, Anita S. Bowman, Jinjuan Yao, Jacklyn Casanova, Yun-Te David Lin, Kseniya Petrova-Drus, Abhinita S. Mohanty, Ruben Bacares, Jamal Benhamida, Satshil Rana, Anna Razum
Xiaoyu Zhang, Jiao Wang, Yuqiu Liu, Jie Liu, Bei Wang, Qiuhui Zhang, Wei Guan, Huijuan Zhang, Li Xu, Guiying Liu, Ping Zhang, Yi He, Sizhou Feng, Mingzhe Han, Changping Li,
Clara Marie Munz, Nicole Dressel, Minyi Chen, Tatyana Grinenko, Axel Roers, Alexander Gerbaulet
Rachel M Price, Marek A Budzyński, Junzhou Shen, Jennifer E. Mitchell, James Z.J. Kwan, Sheila S. Teves
Sun Woo Lim, Yoo Jin Shin, Sheng Cui, Eun Jeong Ko, Byung Ha Chung, Chul Woo Yang
Amberley D Stephens, Ana Fernandez-Villegas, Chyi Wei Chung, Oliver Vanderpoorten, Dorothea Pinotsi, Ioanna Mela, Edward Nicholas Ward, Thomas M McCoy, Robert Cubitt, Alexander F Routh, Clemens F Kaminski, Gabriele S Kaminski Schierle
Fibrosis, the pathological end stage of chronic inflammatory diseases, results from extracellular matrix deposition by fibrogenic fibroblasts. In this issue of Cell Stem Cell, Sobecki et al. (2022) develop a novel vaccination-based immunotherapy aga
Three recent studies from the Zernicka-Goetz and Hanna groups (Amadei et al., 2022; Tarazi et al., 2022; Lau et al., 2022) report the development of mouse embryo-like structures from stem cells. Using a combination of stem cell-derived sources, th
Therapeutic gene editing based on homology-directed repair (HDR) promises to precisely recombine donor template sequences at programmed double-strand break sites. In this issue, Ferrari et al. report that commonly used AAV donors blunt hematopoietic
By characterizing the epigenome of direct reprogramming processes, Qian and colleagues discovered common features of direct reprogramming. Particularly, Ascl1, the neuron reprogramming factor, activates a unique set of cardiac genes. Together with As
(Cell Stem Cell 20, 518–532.e1–e9; April 6, 2017)
Tao Zhang, Sarah E. Noll, Jesus T. Peng, Amman Klair, Abigail Tripka, Nathan Stutzman, Casey Cheng, Richard N Zare, Alexandra Jazz Dickinson
Zhichun Chen, Chongchong Xu, Guanglu Li, Zhexing Wen, Jun Liu, Zixu Mao
Inayat Batish, Mohammad Zarei, Nitin Nitin, Reza Ovissipour
Gemma Noviello, Rutger A.F. Gjaltema, Edda Schulz
Chuanying Geng, Huixing Zhou, Huijuan Wang, Yanchen Li, Yun Leng, Zhiyao Zhang, Yuan Jian, Guangzhong Yang, Wenming Chen
Agata Banach-Latapy, Vincent Rincheval, David Briand, Isabelle Guenal, Pauline Speder
Zhe Wang, Akira Numada, Yusuke Oda, Mototsugu Eiraku
Marie Boutet, Piril Erler, Kenta Nishitani, Nicole Couturier, Zheng Zhang, Emeline Barbieux, Erik Guillen, Masako Suzuki, Gregoire Lauvau, Wenjun Guo
Kémy Adé, Javier Saenz Coronilla, Dorian Obino, Tobias Weinberger, Caroline Kaiser, Sebastien Mella, Cheng Chen, Lida Katsimpardi, Catherine Werts, Pascal Dardenne, Yvan Lallemand, Elisa Gomez-Perdiguero
Gurvir.Virdi Not Provided
Abdulvasey Mohammed, Priscila Ferreira Slepicka, Benjamin Solomon, Kelsea M Hubka, Michael G Chavez, Christine Y Yeh, Virginia D Winn, Casey A Gifford, Purvesh Khatri, Andrew Gentles, Katja Gabrielle Weinacht
Giulia Coppiello, Paula Barlabe, Marta Moya-Jodar, Gloria Abizanda, Carolina Barreda, Elena Iglesias, Javier Linares, Estibaliz Arellano-Viera, Adrian Ruiz-Villalba, Eduardo Larequi, Xonia Carvajal-Vergara, Beatriz Pelacho, Felipe Prosper, Xabier L. Arangur
Paolo Petazzi, Telma Ventura, Alisha May, Francesca Paola Luongo, Helen Alice Taylor, Nicola Romanò, Lesley Margaret Forrester, Pablo Menéndez, Antonella Fidanza
Shuang Lai, Li Deng, Cong Liu, Xinlun Li, Liyuan Fan, Yushu Zhu, Yiling Yang, Yandong Mu
Niccolo Liorni, Alessandro Napoli, Stefano Castellana, Sebastiano Giallongo, Daniela Rehakova, Oriana Lo Re, Irena Koutna, Tommaso Mazza, Manlio Vinciguerra
Brett Stern, Peter Monteleone, Janet Zoldan
Yuki Fujisawa, Ming Lu, Daisuke Yamada, Tomoka Takao, Takeshi Takarada
Mount Sinai researchers have published one of the first studies to demonstrate the importance of reactive oxygen species in maintaining stem cell function and preventing inflammation during wound repair, which could provide greater insights into the prevention and treatment of inflammatory bowel diseases (IBD), according to findings published in the journal Gut on October 3.
Sean de la O, Zhe Liu, Sean Chang, Julie B Sneddon
Heather A McCauley, Anne Marie Riedman, Jacob R Enriquez, Xinghao Zhang, Miki Watanabe-Chailland, J. Guillermo Sanchez, Daniel O. Kechele, Emily F. Paul, Kayle Riley, Courtney Burger, Richard A Lang, James M. Wells
Nicholas R. Smith, Sidharth K. Sengupta, Patrick Conley, Nicole R. Giske, Christopher Klocke, Brett S. Walker, Noelle McPhail, John R. Swain, Yeon Jung Yoo, Ashley N. Anderson, Paige S. Davies, Nasim Sanati, Theresa N. Nguyen, Kristo
Emily J Clarke, Emily Johnson, Eva Caamano Gutierrez, Camilla Andersen, Lise Berg, Rosalind Jenkins, Casper Lindegaard, Kristina Uvebrant, Evy Lundgren-Akerlund, Agnieszka Turlo, Victoria James, Stine Jacobsen, Mandy J. Peffers
Shunya Yagi, Yanhua Wen, Liisa Galea
Here is a summary of the September research discoveries and faculty news from Cedars-Sinai.
The neurohormone oxytocin is well-known for promoting social bonds and generating pleasurable feelings, for example from art, exercise, or sex.