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Loss of hypothalamic MCH decreases food intake in amyotrophic lateral sclerosis. Bolborea M, Vercruysse P, Daria T, Reiners JC, Alami NO, Guillot SJ, Dieterlé S, Sinniger J, Scekic-Zahirovic J, Londo A. Arcay H, Goy M, de Tapia CN, Thal DR, Shibuya K, Otani R, Arai K, Kuwabara S, Ludolph AC, Roselli F, Yilmazer-Hanke D, & Dupuis L. Acta Neuropathologica. 4/14/2023.

Loss of hypothalamic MCH decreases food intake in amyotrophic lateral sclerosis Bolborea M, Vercruysse P, Daria T, Reiners JC, Alami NO, Guillot SJ, Dieterlé S, Sinniger J, Scekic-Zahirovic J, Londo A. Arcay H, Goy M, de Tapia CN, Thal DR, Shibuya K, Otani R, Arai K, Kuwabara S, Ludolph AC, Roselli F, Yilmazer-Hanke D, & [...]

2023-04-14T00:00:00-07:00Published on April 14th, 2023|
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CSF1R inhibitors induce a sex-specific resilient microglial phenotype and functional rescue in a tauopathy mouse model. Johnson NR, Yuan P, Castillo E, Lopez TP, Yue W, Bond A, Rivera BM, Sullivan MC, Hirouchi M, Giles K, Aoyagi A, & Condello C. Nature Communications. 1/9/2023.

CSF1R inhibitors induce a sex-specific resilient microglial phenotype and functional rescue in a tauopathy mouse model Johnson NR, Yuan P, Castillo E, Lopez TP, Yue W, Bond A, Rivera BM, Sullivan MC, Hirouchi M, Giles K, Aoyagi A, & Condello C. Nature Communications 1/9/2023

2023-01-09T00:00:00-08:00Published on January 9th, 2023|
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Liver-Secreted Hexosaminidase A Regulates Insulin-Like Growth Factor Signalling and Glucose Transport in Skeletal Muscle. Montgomery MK, Bayliss J, Nie S, de Nardo W, Keenan SN, Anari M, Taddese AZ, Williamson NA, Ooi GJ, Brown WA, Burton PR, Gregorevic P, Goodman CA, Watt KI, & Watt MJ. American Diabetes Association – Metabolism. 12/29/2022.

Liver-Secreted Hexosaminidase A Regulates Insulin-Like Growth Factor Signalling and Glucose Transport in Skeletal Muscle Montgomery MK, Bayliss J, Nie S, de Nardo W, Keenan SN, Anari M, Taddese AZ, Williamson NA, Ooi GJ, Brown WA, Burton PR, Gregorevic P, Goodman CA, Watt KI, & Watt MJ. American Diabetes Association - Metabolism 12/29/2022

2023-05-14T08:44:36-07:00Published on December 29th, 2022|
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Diet containing stearic acid increased food intake in mice by reducing serum leptin compared with oleic acid. Zhu S, Feng Xiaohua, Feng Xiajie, Xie K, Li Y, Chen L, Mo Y, Liang J, Wu X, Sun Z, Shu G, Wang S, Gao P, Zhu X, Zhu C, Jiang Q, & Wang L. Food & Function. 12/22/2022.

Diet containing stearic acid increased food intake in mice by reducing serum leptin compared with oleic acid Zhu S, Feng Xiaohua, Feng Xiajie, Xie K, Li Y, Chen L, Mo Y, Liang J, Wu X, Sun Z, Shu G, Wang S, Gao P, Zhu X, Zhu C, Jiang Q, & Wang L. Food & Function [...]

2023-05-14T08:44:37-07:00Published on December 22nd, 2022|
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Dopamine-inhibited POMCDrd2+ neurons in the ARC acutely regulate feeding and body temperature. Gaziano I, Corneliussen S, Biglari N, Neuhaus R, Shen L, Sotelo-Hitschfeld T, Klemm P, Steuernagel L, De Solis AJ, Chen W, Wunderlich T, Kloppenburg P, & Brüning JC. JCI Insight. 11/8/2022.

Dopamine-inhibited POMCDrd2+ neurons in the ARC acutely regulate feeding and body temperature Gaziano I, Corneliussen S, Biglari N, Neuhaus R, Shen L, Sotelo-Hitschfeld T, Klemm P, Steuernagel L, De Solis AJ, Chen W, Wunderlich T, Kloppenburg P, & Brüning JC. JCI Insight 11/8/2022

2022-11-08T00:00:00-08:00Published on November 8th, 2022|
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Relaxin/insulin-like family peptide receptor 4 (Rxfp4 ) expressing hypothalamic neurons modulate food intake and preference in mice. Lewis JE, Woodward ORM, Nuzzaci D, Smith CA, Adriaenssens AE, Billing L, Brighton C, Phillips BU, Tadross JA, Kinston SJ, Ciabatti E, Göttgens B, Tripodi M, Hornigold D, Baker D, Gribble FM, & Reimann F. Molecular Metabolism. 9/30/2022.

Relaxin/insulin-like family peptide receptor 4 (Rxfp4 ) expressing hypothalamic neurons modulate food intake and preference in mice Lewis JE, Woodward ORM, Nuzzaci D, Smith CA, Adriaenssens AE, Billing L, Brighton C, Phillips BU, Tadross JA, Kinston SJ, Ciabatti E, Göttgens B, Tripodi M, Hornigold D, Baker D, Gribble FM, & Reimann F. Molecular Metabolism 9/30/2022

2022-09-30T00:00:00-07:00Published on September 30th, 2022|
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