about
Glucagon-like peptide (GLP)-2 action in the murine central nervous system is enhanced by elimination of GLP-1 receptor signalingA PGC-1α isoform induced by resistance training regulates skeletal muscle hypertrophyβ-Aminoisobutyric acid induces browning of white fat and hepatic β-oxidation and is inversely correlated with cardiometabolic risk factors.Loss of Pgc-1α expression in aging mouse muscle potentiates glucose intolerance and systemic inflammationAnti-diabetic drugs inhibit obesity-linked phosphorylation of PPARgamma by Cdk5.The glucagon-like peptide-2 receptor C terminus modulates beta-arrestin-2 association but is dispensable for ligand-induced desensitization, endocytosis, and G-protein-dependent effector activation.Glucagon and glucagon-like peptide receptors as drug targets.The unfolded protein response mediates adaptation to exercise in skeletal muscle through a PGC-1α/ATF6α complexTranscriptional control of adipose lipid handling by IRF4Dual regulation of cell proliferation and survival via activation of glucagon-like peptide-2 receptor signaling.Phenotypic Characterization of MIP-CreERT1Lphi Mice With Transgene-Driven Islet Expression of Human Growth HormonePGC-1 coactivators in β-cells regulate lipid metabolism and are essential for insulin secretion coupled to fatty acidsLipid raft-dependent glucagon-like peptide-2 receptor trafficking occurs independently of agonist-induced desensitization.An Intimate Relationship between ROS and Insulin Signalling: Implications for Antioxidant Treatment of Fatty Liver Disease.The protein level of PGC-1α, a key metabolic regulator, is controlled by NADH-NQO1.The pancreas: Bandmaster of glucose homeostasis.Glucagon-like peptide-2 receptor activation engages bad and glycogen synthase kinase-3 in a protein kinase A-dependent manner and prevents apoptosis following inhibition of phosphatidylinositol 3-kinase.Estrogen Signals Through Peroxisome Proliferator-Activated Receptor-γ Coactivator 1α to Reduce Oxidative Damage Associated With Diet-Induced Fatty Liver Disease.Searching for the β-Cell Fountain of Youth.Linking Metabolic Disease with the PGC-1α Gly482Ser polymorphism.To Be(ta Cell) or Not to Be(ta cell): New Mouse Models for Studying Gene Function in the Pancreatic β-Cell.Mucosal adaptation to enteral nutrients is dependent on the physiologic actions of glucagon-like peptide-2 in mice.ErbB signaling is required for the proliferative actions of GLP-2 in the murine gut.PGC1A regulates the IRS1:IRS2 ratio during fasting to influence hepatic metabolism downstream of insulinGLP-1 receptor activation improves beta cell function and survival following induction of endoplasmic reticulum stressTales beyond the crypt: glucagon-like peptide-2 and cytoprotection in the intestinal mucosaThe Foxo family: partners in crime or silent heroesPeptide-based sequestration of the adaptor protein Nck1 in pancreatic β cells enhances insulin biogenesis and protects against diabetogenic stressesMitochondrial Dysfunction in the Transition from NASH to HCC
P50
Q28581928-988E78D2-20C4-49BE-877C-6CB37C59097AQ30415879-3005B643-8644-4744-BCE2-E2DBB4EE9C9BQ33596037-1EEB04F0-61CD-4685-B517-75EAAE1613AEQ33816920-7CC9DB56-31F8-4DF6-BEC3-746F49613B3FQ34330155-8DB72779-17F4-40B0-8EB6-8F12F2BB65D4Q34409674-C3464BC0-2AD0-44AE-A208-041E564E6555Q34528286-2F7E5865-CF59-4355-892D-CDE916B3E8A3Q34673344-B94A58D8-5590-470B-B462-6441CE72626BQ34713714-17B0CCAD-F66F-44F3-A74E-F7B1C2EDCE2CQ35579897-1E5CB108-A322-4C3E-BF69-D979A3A09816Q36186261-B8785312-6327-49AB-93FF-780FA30E0B46Q36246011-27CDBC7F-942A-4AD2-B629-CE9E3D1F857EQ37031716-5C503F09-77C0-4E7B-A147-9A994B61791FQ37621344-73BB2836-DB2F-4D51-A08B-385C4054399DQ39155657-BE608402-C08A-4AEE-B5C1-1F2528C6CD90Q39205550-414F75BC-94AB-440D-A47A-A682BE7F0916Q40735542-2B645AFF-203A-43B9-BA8F-604BB2536D86Q46486492-0F8E025B-FEDE-4A5F-A7FC-D3D5AD42D65EQ46494961-8ACC1EF8-50F0-4C87-8790-F194806F7C93Q47352202-E65F4E07-BBD5-41C2-9445-277C85BB25B0Q48120422-94A9BAD3-F6A0-4599-B1CB-694802BC6BD2Q51517438-5F5F53A0-36D7-4ECE-A456-B3FACC64B1A9Q54739183-CDB5C285-CDC7-4E21-97AD-D60B6C84E557Q64253732-D7567192-F179-4579-8118-BA9C3E2409ADQ79329446-D23D3E25-C35C-4763-B7BA-E7B047E0DFA0Q81152530-D976C0F1-428F-4884-9B41-A8689F932B7CQ83301824-01EAE012-4B81-4162-8526-808E1C6A5B68Q89239766-15F6B8FB-FD5E-4C5F-A7CC-7F6DD8668085Q90775569-20CCDCDC-DD4D-48A2-B468-52FCC69CEC53
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jennifer L Estall
@ast
Jennifer L Estall
@en
Jennifer L Estall
@es
Jennifer L Estall
@nl
Jennifer L Estall
@sl
type
label
Jennifer L Estall
@ast
Jennifer L Estall
@en
Jennifer L Estall
@es
Jennifer L Estall
@nl
Jennifer L Estall
@sl
prefLabel
Jennifer L Estall
@ast
Jennifer L Estall
@en
Jennifer L Estall
@es
Jennifer L Estall
@nl
Jennifer L Estall
@sl
P106
P21
P31
P3835
jennifer-estall2
P496
0000-0002-9838-1440