Results 101 to 110 of about 158,743 (322)

Metabolism within the tumor microenvironment and its implication on cancer progression: an ongoing therapeutic target [PDF]

, 2018
Since reprogramming energy metabolism is considered a new hallmark of cancer, tumor metabolism is again in the spotlight of cancer research. Many studies have been carried out and many possible therapies have been developed in the last years.
Abdel-Aziz, Ahmadzadeh, Al-Zhoughbi, Albina, Alkan, Allard, Allen, Altman, Alves-Filho, Amelio, Araújo, Argilés, Arora, Arts, Aslanian, Astaldi, Attieh, Augsten, Auvinen, Babbar, Baker, Balasubramanian, Baltazar, Bauer, Bello-Fernandez, Beloribi-Djefaflia, Berchner-Pfannschmidt, Berge, Berrone, Birendra, Bloch-Frankenthal, Bock, Bock, Bonuccelli, Boros, Boudreau, Boukalova, Britten, Brooks, Broome, Bueno, Buqué, Burnet, Cadamuro, Cahlin, Cantelmo, Cao, Carito, Carmeliet, Carmeliet, Caro, Carrascosa, Casazza, Caspani, Catane, Cavalcante, Chakravarty, Chakravarty, Chakravarty, Chang, Chang, Chang, Chappell, Chaudhary, Chen, Chen, Chen, Chiarini, Chittezhath, Choi, Choi, Clark, Clem, Clem, Cohen, Colegio, Collins, Commisso, Covarrubias, Covarrubias, Dang, Dang, Das, Dasgupta, Daurkin, DeBerardinis, DeBerardinis, Delgoffe, Delgoffe, Dell’ Antone, Desai, DiNapoli, Dirat, Dobrina, Doherty, Dong, Draoui, Dufour, Eason, Eelen, El Sayed, Elia, Elwood, Eminel, Fallarino, Farabegoli, Farber, Feun, Fields, Figueras, Filipp, Fischer, Flaig, Flint, Floor, Floridi, Folkman, Folkman, Franklin, Gacche, Ganeshan, Garber, García-Caballero, García-Faroldi, García-Faroldi, Gatenby, Gazi, Geiger, Gentric, Gerner, Gershtein, Ghashghaeinia, Gonen, Goveia, Granchi, Grieninger, Grivennikov, Gross, Gunnink, Guo, Guo, Guppy, Guth, Halestrap, Han, Hanahan, Hanahan, Hanai, Harjes, Harjes, Haskell, Hatzivassiliou, Hayakawa, Hessini, Hitosugi, Ho, Ho, Hoff, Holm, Hosono, Huang, Hubler, Hui, Häusler, Hée, Ignatenko, Ioannesyants, Ip, Jiménez-Valerio, Jiménez-Valerio, Jochems, Johansen, Jones, Kabat, Kafkewitz, Kamphorst, Kamphorst, Kamphorst, Kannan, Karpel-Massler, Katt, Kawasaki, Kelly, Kim, Klimp, Ko, Koliaraki, Kouidhi, Koukourakis, Kridel, Krishna, Kroemer, Krützfeldt, Kubatka, Kucharzewska, la Cueva, Labow, Laing, Lampropoulou, Le, Lechowski, Lee, Lee, Leek, Leighton, Leopold, LePage, Lerma Barbaro, Li, Lin, Liu, Liu, Liu, Liu, Liu, Liu, Liu, Lopes-Coelho, Lu, Lucca, Lukey, Lunt, Luo, López-Lázaro, Löb, Ma, Madaan, Maity, Marchiq, Martinez-Outschoorn, Martinez-Outschoorn, Maráz, Mashima, Masri, Matusewicz, McCann, McKee, McLaughlin, Medina, Medina, Merchan, Meyer, Mider, Missiaen, Mitra, Mockler, Moreno-Sánchez, Morrison, Mu, Murray-Stewart, Márquez, Márquez, Nacev, Nancolas, Newsholme, Nieman, Nisoli, Noman, Norrby, Noy, Nurjhan, Nyberg, Ocaña, Ohmura, Oka, Opitz, Orimo, Pallangyo, Palm, Panda, Papandreou, Parra-Bonilla, Parry, Pascual, Pasquier, Patsoukis, Pavlides, Pavlova, Pelicano, Pellerin, Pennisi, Penny, Peters, Pisarsky, Pizer, Polanski, Polet, Pollard, Polyak, Possemato, Potente, Potente, Prager, Prager, Pushkina, Pérez-Escuredo, Quatromoni, Quesada, Quesada, Rabold, Ramjiawan, Rashid, Rattigan, Reihill, Reitzer, Ribatti, Ribatti, Ribeiro, Richard, Rider, Roberts, Rodríguez-González, Rodríguez-Prados, Rohle, Romero, Romero-García, Roy, Roy, Ruan, Ruiz-Pérez, Russell, Ryu, Saez, Salimian Rizi, Salimian Rizi, Samal, Samudio, Santos, Sanuphan, Sasaki, Saulnier Sholler, Scherz-Shouval, Schoors, Schulze, Segura, Sekar, Selak, Seltzer, Serafini, Shapot, Shapot, Shapot, Sharkia, Shime, Shin, Shurbaji, Sieber, Siu, Skelton, Song, Sonveaux, Sonveaux, Souba, Sousa, Spahr, Spinelli, Spolarics, Stacpoole, Stern, Stuart, Stumvoll, Su, Sukumar, Sánchez-López, Tachibana, Takigawa, Talekar, Tanese, Tang, Tannahill, Tebbe, Thomas, Thomas, Thornburg, Tisdale, Torosian, Torres, Trudeau, Ullah, Uray, Urdiales, Vander Heiden, Vander Heiden, Varricchi, Vasudevan, Velaei, Vera, Vornovitskaya, Végran, Wagner, Wakil, Wang, Wang, Wang, Wang, Warburg, Warburg, Wen, Whitaker-Menezes, Williams-Ashman, Wilson, Wood, Woodward, Woster, Wu, Wu, Xie, Yamanishi, Yang, Yang, Yau, Yen, Yoshida, Yoshizaki, Yu, Yuan, Yuan, Yuan, Yun, Zabala-Letona, Zahalka, Zhan, Zhang, Zhang, Zhang, Zhang, Zhang, Zhao, Zheng, Zhou, Zhu, Ziegler   +431 more
core   +2 more sources

Protein Language Model‐Guided Engineering of a 2,3‐Butanediol Dehydrogenase for the Enantioselective Synthesis of Cyclic α‐Hydroxy Ketones

Advanced Science, EarlyView.
A (2R,3R)‐butanediol dehydrogenase from Bacillus subtilis (BsBDH) is engineered for the enantioselective synthesis of 2‐hydroxycyclohexanone. A PASS computational design strategy is proposed to enhance the thermostability of BsBDH. Moreover, ESM‐1v combined with ISM is utilized for enhancing and inverting its stereoselectivity.
Haote Ding, Ling Jiang, Yijia Song, Zhongji Pu, Lirong Yang, Haoran Yu   +5 more
wiley   +1 more source

Case Report: A novel hemizygous missense PDHA1 variant in a Vietnamese boy with pyruvate dehydrogenase E1-alpha deficiency

Frontiers in Pediatrics
A pyruvate dehydrogenase complex deficiency causes a reduction in adenosine triphosphate production and energy insufficiency, leading to neurological disorders.
Thi Thanh Ngan Nguyen, Nguyen Ngoc Khanh, Chi Dung Vu, Ngoc-Lan Nguyen, Van Khanh Tran, Nguyen Thi Kim Lien, Nguyen Van Tung, Nguyen Duc Quan, Nguyen Thanh Hien, Tran Thi Huong Giang, Nguyen Thi Xuan, Nguyen Thien Tao, Tran Van Khoa, Huy Hoang Nguyen   +13 more
doaj   +1 more source

Enzymatic Remodelling of Tumour Microenvironment Enhances Anti‐CEACAM5 CAR T‐Cell Efficacy Against Colorectal Cancer

Advanced Science, EarlyView.
This study shows anti‐CEACAM5 CAR T‐cells are ineffective against colorectal cancer (CRC) because of CEACAM5 sequestration at intercellular junctions and the thick tumour cell glycocalyx. Enzymatic treatments of CRC cell monolayer/tissue section with trypsin or hyaluronidase restore CEACAM5 availability, enhance CAR T‐cell activation, increase ...
Debasis Banik, Christopher J. Ward, Soura Chakraborty, Ziwei Zhang, Daniel Heraghty, Prasanna Suresh, Bing Li, Shekhar Kedia, Jhuma Pramanik, Simon J. Davis, James P. Roy, Michael A. Chapman, Bidesh Mahata, David Klenerman   +13 more
wiley   +1 more source

Complete genome sequence of Syntrophobacter fumaroxidans strain (MPOB(T)). [PDF]

, 2012
Syntrophobacter fumaroxidans strain MPOB(T) is the best-studied species of the genus Syntrophobacter. The species is of interest because of its anaerobic syntrophic lifestyle, its involvement in the conversion of propionate to acetate, H2 and CO2 during ...
Crable, Bryan R, Goltsman, Eugene, Gunsalus, Robert P, Henstra, Anne M, Kim, Edwin, Lapidus, Alla L, Lykidis, Athanasios, McDonald, Erin, McInerney, Michael J, Paulitsch-Fuchs, Astrid H, Plugge, Caroline M, Rohlin, Lars, Scholten, Johannes CM, Stams, Alfons JM, Swarts, Daan C, Worm, Petra   +15 more
core   +2 more sources

A Cold Stress‐Activated Endocrine Sentinel Chemical Hormone Promotes Insect Survival via Mitochondrial Adaptations Through the Adipokinetic Hormone Receptor

Advanced Science, EarlyView.
Seasonal cold adaptation is vital for insect survival, yet the molecular mechanisms linking diapause to mitochondrial resilience remain largely unresolved. We identify ascaroside C9 (asc‐C9) as a key endocrine signal that enhances diapause survival during cold stress by activating the AKHR–PGC1α–UCP4 axis, thereby driving cold‐induced lipolysis and ...
Jiao Zhou, Junxian Chen, Hongxia Zhang, Lu Guo, Kevin Mai, Elijah Abraham, Dilip V. Prajapati, Yue Chang, Jing Ning, Xinchen Wang, Defeng Li, Dan‐Dan Zhang, Jianghua Sun, Rebecca A. Butcher, Lilin Zhao   +14 more
wiley   +1 more source

Inhibition of the mitochondrial pyruvate carrier protects from excitotoxic neuronal death. [PDF]

, 2017
Glutamate is the dominant excitatory neurotransmitter in the brain, but under conditions of metabolic stress it can accumulate to excitotoxic levels.
Andreyev, Alexander Y, Bloodgood, Brenda L, Buren, Caodu, Cordes, Thekla, Divakaruni, Ajit S, Fields, Jerel A, Li, Edward, Martyniuk, Kelly, Metallo, Christian M, Murphy, Anne N, Raymond, Lynn A, Reynolds, Ian J, Wallace, Martina   +12 more
core   +1 more source

Lactylation‐Driven YTHDC1 Alleviates MASLD by Suppressing PTPN22‐Mediated Dephosphorylation of NLRP3

Advanced Science, EarlyView.
In MASLD, YTHDC1 undergoes increased lactylation and ubiquitination, reducing its expression. AARS1 mediates lactylation at lysine 565, while disrupted binding to LDHA further promotes lactylation, suppressing YTHDC1. This downregulation enhances PTPN22 mRNA stability, leading to NLRP3 dephosphorylation and activation, which exacerbates inflammation ...
Feng Zhang, Linghua Zeng, Kunkun Zou, Keying Lin, Fangting Yao, Jinglun Song, Shumeng Zhang, Hanshu Feng, Zhichao Yang, Chunlei Wang, Hongtao Diao, Xue Kong, Tengfei Pan, Joonki Kim, Tianqi Duo, Linqiang Li, Yu Bian   +16 more
wiley   +1 more source

Skeletal Muscle HSF1 Alleviates Age‐Associated Sarcopenia and Mitochondrial Function Decline via SIRT3‐PGC1α Axis

Advanced Science, EarlyView.
Aged HSF1 muscle‐specific knockout mice show deteriorated muscle atrophy and metabolic dysfunction, while active HSF1 overexpression improves muscle function via activating SIRT3 to deacetylate both PGC1α1 and PGC1α4, which boosts mitochondrial function and muscle hypertrophy in a fiber‐type specific manner, and induces FNDC5/Irisin for tissue ...
Jun Zhang, Min Hu, Xia Wu, Mingwei Guo, Ying Ma, Jin Qiu, Siqi Wang, Yuxiang Cao, Yinzhao Zhong, Fangfang Chen, Yiwen Wang, Wei Wei, Yan Lu, Yong Zhang, Junjie Xiao, Zhenji Gan, Cheng Hu, Xinran Ma, Lingyan Xu   +18 more
wiley   +1 more source

MondoA deficiency enhances sprint performance in mice [PDF]

, 2014
MondoA is a basic helix-loop-helix (bHLH)/leucine zipper (ZIP) transcription factor that is expressed predominantly in skeletal muscle. Studies in vitro suggest that the Max-like protein X (MondoA:Mlx) heterodimer senses the intracellular energy status ...
Chan, Lawrence, Harris, Robert A., Hung-Junn Chang, Benny, Hwang, Byounghoon, Imamura, Minako, Kohjima, Motoyuki, Li, Ming, Taegtmeyer, Heinrich   +7 more
core   +1 more source