Cancer Stem Cells and Competing Endogenous RNAs
PreprintsHamid Aria, Mahdieh Azizi, Shima Nazem, Maryam Bahmanyar, Ali Moravej, Mohammad Hosein Pourjafarian, Babak Pezeshki, Alireza Tavassoli, Mohammad Kazem Vakil, Yaser Mansoori
Hamid Aria, Mahdieh Azizi, Shima Nazem, Maryam Bahmanyar, Ali Moravej, Mohammad Hosein Pourjafarian, Babak Pezeshki, Alireza Tavassoli, Mohammad Kazem Vakil, Yaser Mansoori
Kotaro Sasaki, Yasunari Seita, Keren Cheng, John McCarrey, Nomesh Yadu, Ian Cheeseman, Alec Bagwell, Corinna N Ross, Isamar Santana-Toro, Li-Hua Yen, Sean Vargas, Christopher S Navara, Brian P Hermann
Marija Zivaljic, Mathieu Hubert, Ludivine Grzelak, Giulia Sansone, Uwe Maskos, Olivier Schwartz
Fuad Gandhi Torizal, Tia Utami, Lau Qiau You, Kousuke Inamura, Masaki Nishikawa, Yasuyuki Sakai
Louise Cheng, Kellie Veen, Francesca Froldi, Qian Dong, Edel Alvarez-Ochoa, Phuong-Khanh Nguyen, Kieran F Harvey, John P D McMullen, Owen J. Marshall, Patricia R Jusuf
Ogechi Ogoke, Daniel Guiggey, Sarah Thompson, Alexander Chiang, Tram Hoang Anh Nguyen, Daniel Berke, Cortney Ott, Allison Kalinousky, Claire Shamul, Peter Chen, Shatoni Ross, Zhaowei Chen, Pooja Srivastava, Supriya D Mahajan,
Daniel W. Simmons, David R. Shuftan, Jingxuan Guo, Kasoorelope Oguntuyo, Ghiska Ramahdita, Mary K. Munsell, Brennan Kandalaft, Missy Pear, Nathaniel Huebsch
Abstract: To develop into the central nervous system, neuroepithelial cells must first form a neural tube consisting of a series of patterned neural progenitor cells along the anterior-posterior (AP) axis. Based on studies using model organisms, it has been revealed that AP spatial regionalization is dominated by gradients of morphogens that regulate retinoic acid (RA), sonic hedgehog (SHH), bone morphogenetic proteins (BMPs), and Wingless/int1 (WNT) signaling pathways.
Abstract: A growing number of studies showed that single nucleotide polymorphisms (SNPs) in the human leukocyte antigen (HLA)-related genes were associated with the outcome of hematopoietic stem cell transplantation (HSCT).
Background Senescent adipose-derived stem cells (ASCs) exhibit reduced therapeutic efficacy during wound healing. Transcriptional regulation factors including long non-coding RNAs (lncRNAs) reportedly play essential roles in stem cell aging. However, the mechanisms by which lncRNAs influence mesenchymal stem cell aging have not been investigated.
Giorgia Fedele, Alessandra Cazzaniga, Sara Castiglioni, Laura Locatelli, Antonella Tosoni, Manuela Nebuloni, Jeanette A.M. Maier
Lara Al Zouabi, Marine Stefanutti, Nick Riddiford, Natalia Rubanova, Mylene Bohec, Nicolas Servant, Allison J Bardin
Jiacong Hong, Shan Wang, Zhaopeng Cai, Peng Wang, Zhongyu Xie, Keng Chen
Our immune system is essential for our survival, as our bodies are constantly being exposed to bacteria, viruses, parasites, and other pathogens.
Ryota Mori, Norikatsu Miyoshi, Shiki Fujino, Tsunekazu Mizushima, Ryohei Yukimoto, Takayuki Ogino, Hidekazu Takahashi, Mamoru Uemura, Yuichiro Doki, Hidetoshi Eguchi
Faizzan S. Ahmad, Yongcheng Jin, Alexander D. Grassam-Rowe, Yafei Zhou, Meng Yuan, Xuehui Fan, Rui Zhou, Razik Mu-U-Min, Christopher O'Shea, Ayman M. Ibrahim, Wajiha Hyder, Yasmine Aguib, Magdi Yacoub, Davor Pavlovic
Fatemeh Eskandari, Samira Zolfaghari, Ayna Yazdanpanah, Rima Manafi Shabestari, Motahareh Rajabi Fomeshi, Peiman B. Milan, Jafar Kiani, Mina Soufi Zomorrod, Majid Safa
Robyn M Jong, Krystal Ching, Nicholas E Garelis, Alex Zilinskas, Xammy Nguyenla, Sagar Rawal, Bianca Hill, Bridget Luckie, Lillian Shallow, Jeffery S Cox, Gregory Barton, Sarah Stanley
Anja Hess, Stefan D. Gentile, Amel Ben Saad, Raza-Ur Rahman, Tim Habboub, Alan C. Mullen
So Hee Nam, Yan Lee, Hee-Jin Yang, Sung Bae Park
A recent paper in Nature Neuroscience by University of Notre Dame biologist Cody J. Smith demonstrated how lymphatics — which remove waste from the rest of the body — are also associated with microglia and brain development in zebrafish.
Key takeaways: • Just like the real thing. The stem cell–derived interneurons, which play a role in sensations like touch and pain, are indistinguishable from their real-life counterparts in the body. • Tomorrow’s therapies. In addition to potential treatments for injury-related sensation loss, the discovery could lead to new methods for screening drugs for chronic pain. • Moving forward. While stem cells from mice were used in the research, scientists are now working to replicate the findings with human cells.
Rutgers scientists have found more clear-cut evidence of how the destructive proteins linked to Alzheimer’s disease attack human brain cells and destroy surrounding tissue.
Kolby Jardine, Rebecca Dewhirst, Suman Som, Joseph Lei, Eliana Tucker, Robert Young P, Miguel Portillo-Estrada, Yu Gao, Luping Su, Silvano Fares, Cristina Castanha, Jenny Mortimer
Yihong Li, Ting Cai, Huina Liu, Yun Lei, Shun Zhang, Fuyu Sun, Jie Liu, Shao-Yu Chen, Huadong Fan
Ophelie Renoult, Catherine Gratas, Noemie Joalland, Melanie Laurent--Blond, Hala Awada, Marine Bourgeois, Lisa Oliver, Sophie Chiavassa, Mikael Croyal, Francois Paris, Claire Pecqueur
Siqin Bao, Baojiang Wu, Zhiqing Yang, Yijie Liu, Jianwen Li, Chen Chen, Xihe Li
Amatullah Mir, Isaree Pitaktong, Jason Yusheng He, Katherine Nurminsky, Tyler Dunn, Sarah Koljaka, Olivia Dunn, Stephanie Ran, Daniel Rodgers, Anya Wang, Hiroshi Matsushita, Narutoshi Hibino, Wesley Shih
Amanda Menzele, Hamida Aboalgasm, Robea Ballo, Asfree Gwanyanya
Hailin Zou, Juan Luo, Yibo Guo, Peng Li
Here, Seong et al. identify an optimal set of epiblast inducers that captures mouse trophectoderm stem cells (TESCs) as a stable and highly self-renewing state reflecting the blastocyst stage. TESCs have enhanced capacity to form blastoids that indu
Em um dos primeiros estudos inéditos, a Mayo Clinic analisou um grupo grande de pacientes para entender as motivações para buscar terapias com células-tronco, e se tais expectativas são fundamentadas na ciência.
妙佑医疗国际(Mayo Clinic) 在一项开创性调查研究中对一大批患者进行了分析,以了解他们寻求干细胞疗法的动机,以及他们的期望是否具有科学依据。调查发现有助于医务人员破除误导性观念,并更好地为患者提供咨询服务。
En uno de los primeros estudios de este tipo, Mayo Clinic analizó a un grupo grande de pacientes para entender qué les motiva a solicitar terapias con células madre y saber si sus expectativas tienen base científica.
Alexander T.F. Bell, Jacob T. Mitchell, Ashley L. Kiemen, Kohei Fujikura, Helen Fedor, Bonnie Gambichler, Atul Deshpande, Pei-Hsun Wu, Dimitrios N Sidiropoulos, Rossin Erbe, Jacob Stern, Rena Chan, Stephen Williams, James M. Chell,
Peng Ding, Chuan Gao, Youshui Gao, Delin Liu, Hao Li, Jun Xu, Xiaoyi Chen, Yigang Huang, Changqing Zhang, Ming Hao Zheng, Junjie Gao
Wenxuan Wang, Chun Fan, Xinbo Yu, Xu Qiu, Yingzhe Hu, Shuhan Li, Xiangru Gao, Qiuxia Ji
Tarik Hadid, Ayad Al-Katib, Jose Binongo, Gina M. Berteotti, Salman Fazal, James M. Rossetti, John Lister
Philipp Gmach, Marc Bathe-Peters, Narasimha Telugu, Martin J Lohse, Paolo Annibale
Ao Fang, Yifan Wang, Naiyu Guan, Lingmin Lin, Binjie Guo, Wanxiong Cai, Xiangfeng Chen, Jingjia Ye, Zeinab Abdelrahman, Shuang Jin, Bin Yu, Xiaosong Gu, Xuhua Wang
Andrew D Duckworth, Cath Eberlein, Victoria Pollard, Richard Bethell, Joseph R Slupsky, Oliver Schon, John F Woolley, Tiffany Thorn
Brijesh Kumar, Katie Batic, Poornima Bhat-Nakshatri, Maggie M Granatir, Rebekah Joann Addison, Megan Szymanski, Lee Ann Baldridge, Constance J Temm, George Sandusky, Sandra K Althouse, Anna Maria Storniolo, Harikrishna Nakshatri
Guomin Li, Xu Han, Ye Wu, Wei Wang, Hong-Xia Tang, Mei-Ping Lu, Xue-Mei Tang, Yi Lin, Fan Deng, Jun Yang, Xin-Ning Wang, Cong-Cong Liu, Wen-Jie Zheng, Bing-Bing Wu, Fang Zhou
Tomoaki Iwayama, Mizuho Iwashita, Kazuya Miyashita, Hiromi Sakashita, Shuji Matsumoto, Kiwako Tomita, Phan Bhongsatiern, Tomomi Kitayama, Kentaro Ikegami, Takashi Shimbo, Katsuto Tamai, Masanori A Murayama, Shuhei Ogawa, Yoichiro Iwa
Here, Seong et al. identify an optimal set of epiblast inducers that captures mouse trophectoderm stem cells (TESCs) as a stable and highly self-renewing state reflecting the blastocyst stage. TESCs have enhanced capacity to form blastoids that indu
Here, Seong et al. identify an optimal set of epiblast inducers that captures mouse trophectoderm stem cells (TESCs) as a stable and highly self-renewing state reflecting the blastocyst stage. TESCs have enhanced capacity to form blastoids that indu
Abstract: Background: Clinical and research based genetic testing has uncovered genes that encode chromatin modifying complex components required for organogenesis. Covalent histone modifications play a key role in establishing transcriptional plasticity during development, required for cell fate specification, and have been implicated as a developmental mechanism that accounts for autism spectrum disorder (ASD) and CHD co-occurrence. ASXL3 has been identified as a high confidence ASD gene. ASXL3 is a component of the Polycomb Repressive Deubiquitination (PR-DUB) complex, which deubiquitinates histone H2A. However, the role of ASXL3 in cardiac development remains unknown.
Neuroinflammation and activated microglia play important role in neuron damage in the traumatic brain injury (TBI). In this study, we determined the effect of human umbilical cord mesenchymal stem cells (UMSCs) combined with monosialotetrahexosy 1 ganglioside (GM1) on the neuroinflammation and polarization of microglia in a rat model of TBI, which was established in male rats using a fluid percussion brain injury device.
Here, Seong et al. identify an optimal set of epiblast inducers that captures mouse trophectoderm stem cells (TESCs) as a stable and highly self-renewing state reflecting the blastocyst stage. TESCs have enhanced capacity to form blastoids that indu
Here, Seong et al. identify an optimal set of epiblast inducers that captures mouse trophectoderm stem cells (TESCs) as a stable and highly self-renewing state reflecting the blastocyst stage. TESCs have enhanced capacity to form blastoids that indu