Enhancing fat graft retention through adipose tissue browning: a systematic review. [PDF]
Qiu H, Wang H, Ji Q, Wu D.
europepmc +1 more source
Angiotensin II Promotes White Adipose Tissue Browning and Lipolysis in Mice. [PDF]
Cai Z +11 more
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Summary Background Plasma L‐lactate (lactate) is widely used as a prognostic marker in horses with acute gastrointestinal disease (colic), but association with obesity is unclear. In humans, plasma lactate is correlated with obesity and insulin resistance. Objectives This study aims to evaluate the association of obesity (body condition score ≥7/9) and
A. L. Tillisch +4 more
wiley +1 more source
Molecular mechanisms of propolis in adipogenesis, lipid metabolism and white adipose tissue Browning: a systematic review of preclinical studies. [PDF]
Megantara I +4 more
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l-Arginine Induces White Adipose Tissue Browning-A New Pharmaceutical Alternative to Cold. [PDF]
Kalezic A, Korac A, Korac B, Jankovic A.
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Summary A 4‐year‐old, 6‐month pregnant, Welsh pony mare presented with severe acute clinical signs including depression, anorexia, pale mucous membranes, tachycardia with a grade 4/6 holosystolic murmur and moderate expiratory dyspnoea with diffuse wheezes. There was no evidence of placentitis or fetal distress.
M. F. David +4 more
wiley +1 more source
The malate–aspartate shuttle supports thermogenic lipid mobilization in brown adipocytes
Brown fat cells burn lipids within their mitochondria to generate heat. This process involves two energy “shuttles,” one of which is naturally blocked during heat production. We found that the second shuttle (MASh) is not required to generate heat. However, when MASh is disabled, the fatty acids meant for fuel are instead converted back into stored fat.
Michaela Veliova +12 more
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Regulation of redox homeostasis by ATF4-MTHFD2 axis during white adipose tissue browning. [PDF]
Ginting RP +8 more
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Maternal secretin ameliorates obesity by promoting white adipose tissue browning in offspring. [PDF]
Xue L +21 more
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ADAM17 and its proteolytic targets in disease pathogenesis
ADAM17 as a multifunctional sheddase with contrasting roles across inflammatory, metabolic, cardiovascular, and neoplastic diseases. Through regulated activation by iRhom, iTAP/FRMD8, and tetraspanins, ADAM17 cleaves diverse membrane ligands and receptors, thereby promoting inflammation, fibrosis, obesity, insulin resistance, and tumor progression ...
Abdulbasit Amin, Marina Badenes
wiley +1 more source

