Browsing by author "Shi, YC"
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Additive actions of the cannabinoid and neuropeptide Y systems on adiposity and lipid oxidation
Zhang, L; Lee, NJ; Nguyen, AD; Enriquez, RF; Riepler, SJ; Stehrer, B; Yulyaningsih, E; Lin, S; Shi, YC; Baldock, PA; Herzog, H; Sainsbury, AmandaPublished 2009-12-01Open AccessArticle -
Adult-onset PYY overexpression in mice reduces food intake and increases lipogenic capacity
Shi, YC; Hämmerle, C; Lee, ICJ; Turner, N; Nguyen, AD; Riepler, SJ; Lin, S; Sainsbury, Amanda; Herzog, H; Zhang, LPublished 2012-08-01Open AccessArticle -
Arcuate NPY Controls Sympathetic Output and BAT Function via a Relay of Tyrosine Hydroxylase Neurons in the PVN
Shi, YC; Lau, J; Lin, Z; Zhang, H; Zhai, L; Sperk, G; Heilbronn, R; Mietzsch, M; Weger, S; Huang, XF; Enriquez, RF; Baldock, PA; Zhang, L; Sainsbury, Amanda; Herzog, H; Lin, SPublished 2013-02-01Open AccessArticle -
Critical Role of Arcuate Y4 Receptors and the Melanocortin System in Pancreatic Polypeptide-Induced Reduction in Food Intake in Mice
Lin, S; Shi, YC; Yulyaningsih, E; Aljianova, A; Zhang, L; Macia, L; Nguyen, AD; Lin, EJD; During, MJ; Herzog, H; Sainsbury, AmandaPublished 2009-12-01Open AccessArticle -
Double deletion of orexigenic neuropeptide Y and dynorphin results in paradoxical obesity in mice
Nguyen, AD; Slack, K; Schwarzer, C; Lee, NJ; Boey, D; Macia, L; Yulyaningsih, E; Enriquez, RF; Zhang, L; Lin, S; Shi, YC; Baldock, PA; Herzog, H; Sainsbury, AmandaPublished 2014-06-01Open AccessArticle -
The endogenous opioid dynorphin is required for normal bone homeostasis in mice
Baldock, PA; Driessler, F; Lin, S; Wong, IPL; Shi, YC; Yulyaningsih, E; Castillo, L; Janmaat, S; Enriquez, RF; Zengin, A; Kieffer, B; Schwarzer, C; Eisman, J; Sainsbury, Amanda; Herzog, HPublished 2012-12-01Open AccessArticle -
Intermittent Moderate Energy Restriction Improves Weight Loss Efficiency in Diet-Induced Obese Mice
Seimon, RV; Shi, YC; Slack, K; Lee, K; Fernando, HA; Nguyen, AD; Zhang, L; Lin, S; Enriquez, RF; Lau, J; Herzog, H; Sainsbury, AmandaPublished 2016-01-01Open AccessArticle -
Macrophage Inhibitory Cytokine 1 (MIC-1/GDF15) Decreases Food Intake, Body Weight and Improves Glucose Tolerance in Mice on Normal & Obesogenic Diets
Macia, L; Tsai, VWW; Nguyen, AD; Johnen, H; Kuffner, T; Shi, YC; Lin, S; Herzog, H; Brown, DA; Breit, SN; Sainsbury, AmandaPublished 2012-04-01Food intake and body weight are controlled by a variety of central and peripheral factors, but the exact mechanisms behind these processes are still not fully understood. Here we show that that macrophage inhibitory ...Open AccessArticle -
Neuropeptide Y1 Receptor in Immune Cells Regulates Inflammation and Insulin Resistance Associated With Diet-Induced Obesity
Macia, L; Yulyaningsih, E; Pangon, L; Nguyen, AD; Lin, S; Shi, YC; Zhang, L; Bijker, M; Grey, S; Mackay, F; Herzog, H; Sainsbury, AmandaPublished 2012-12-01Open AccessArticle -
NPY modulates PYY function in the regulation of energy balance and glucose homeostasis
Zhang, L; Nguyen, AD; Lee, ICJ; Yulyaningsih, E; Riepler, SJ; Stehrer, B; Enriquez, RF; Lin, S; Shi, YC; Baldock, PA; Sainsbury, Amanda; Herzog, HPublished 2012-03-01Open AccessArticle -
Peptide YY Regulates Bone Remodeling in Mice: A Link between Gut and Skeletal Biology
Wong, IPL; Driessler, F; Khor, EC; Shi, YC; Hormer, B; Nguyen, AD; Enriquez, RF; Eisman, JA; Sainsbury, Amanda; Herzog, H; Baldock, PAPublished 2012-07-01Open AccessArticle -
PYY3-36 and pancreatic polypeptide reduce food intake in an additive manner via distinct hypothalamic dependent pathways in mice
Shi, YC; Lin, Z; Lau, J; Zhang, H; Sainsbury, Amanda; Herzog, H; Lin, SPublished 2013-12-01Open AccessArticle -
Y1 and Y5 Receptors Are Both Required for the Regulation of Food Intake and Energy Homeostasis in Mice
Nguyen, AD; Mitchell, NF; Lin, S; Macia, L; Yulyaningsih, E; Baldock, PA; Enriquez, RF; Zhang, L; Shi, YC; Zolotukhin, S; Herzog, H; Sainsbury, AmandaPublished 2012-06-01Neuropeptide Y (NPY) acting in the hypothalamus is one of the most powerful orexigenic agents known. Of the five known Y receptors, hypothalamic Y1 and Y5 have been most strongly implicated in mediating hyperphagic effects. ...Open AccessArticle -
Y4 receptors and pancreatic polypeptide regulate food intake via hypothalamic orexin and brain-derived neurotropic factor dependent pathways
Sainsbury, Amanda; Shi, YC; Zhang, L; Aljanova, A; Lin, Z; Nguyen, AD; Herzog, H; Lin, SPublished 2010-06-01Open AccessArticle
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