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Query: UMLS:C0015695 (
fatty liver
)
13,941
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Obesity-related
hepatic steatosis
is commonly associated with central fat accumulation and alterations in adipocytokine secretion; however, the connection between nonobese
hepatic steatosis
and adipocytokines remains unclear. We aim to investigate this connection using an animal model of conditional hepatitis C virus (HCV) core-transgenic mice. Double transgenic mice (DTM) with doxycycline (dox)-regulated hepatic overexpression of the HCV core protein were fed standard rodent chow ad libitum following 1 month of a dox-rich diet. The mice exhibited nonobese
hepatic steatosis
at 2 months of age. The levels of leptin and adiponectin were assessed in 2-month-old DTM (i.e., HCV core-tetracycline transactivator (tTA)) and single transgenic mice (STM; i.e., tTA). The total fat mass and the body fat distribution of the mice were evaluated using dual-energy X-ray absorptiometry (DEXA) and magnetic resonance imaging (MRI). Microarray analyses and quantitative real-time PCR were conducted using RNA obtained from the visceral fat of paired DTM and STM. Adiponectin was administered intraperitoneally to the 2-month-old DTM. No significant differences of the various fat components were noted between the DTM and STM. Leptin mRNA was downregulated in the visceral fat of DTM (P = 0.011), and serum adiponectin protein levels were reduced in the DTM compared with those in the STM (P = 0.035). Adiponectin treatment also significantly ameliorated
hepatic steatosis
in the DTM compared to the controls (P = 0.024). In conclusion, HCV core-induced nonobese
hepatic steatosis
is associated with downregulation of the leptin gene in visceral fat and concurrent hypoadiponectinemia; however, these effects may be ameliorated by adiponectin treatment.
Obesity (
Silver
Spring) 2012 Jul
PMID:HCV core-induced nonobese hepatic steatosis is associated with hypoadiponectinemia and is ameliorated by adiponectin administration. 2242 94
As the applications and environmental release of
silver
ions and nanoparticles are increasing, increasing human exposure to these pollutants has become an emerging health concern. The impeding effects of such pollutants on susceptible populations are severely under-studied. Here, we demonstrate that
silver
nanoparticles (Ag NPs), at a dose that causes no general toxicity in normal mice, promotes the progression of
fatty liver
disease from steatosis to steatohepatitis only in overweight mice. Exposure to Ag
+
ions induces the same effects in overweight mice. Ag NPs rather than Ag
+
ions cause this disease progression based on our findings that Ag
+
ions are partly reduced to Ag NPs in fatty livers, and the toxic effect is correlated with the liver dose of Ag NPs, not Ag
+
ions. Furthermore, the Ag NP-induced pro-inflammatory activation of Kupffer cells in the liver, enhancement of hepatic inflammation, and suppression of fatty acid oxidation are identified as key factors in the underlying mechanisms.
...
PMID:Oral Exposure to Silver Nanoparticles or Silver Ions May Aggravate Fatty Liver Disease in Overweight Mice. 2872 8
A growing number of youth suffer from obesity and in particular severe obesity for which intensive lifestyle intervention does not adequately reduce excess adiposity. A treatment gap exists wherein effective treatment options for an adolescent with severe obesity include intensive lifestyle modification or metabolic and bariatric surgery while the application of obesity pharmacotherapy remains largely underutilized. These youth often present with numerous obesity-related comorbid diseases, including hypertension, dyslipidemia, prediabetes/type 2 diabetes, obstructive sleep apnea, nonalcoholic
fatty liver
disease, musculoskeletal problems, and psychosocial issues such as depression, anxiety, and social stigmatization. Current pediatric obesity treatment algorithms for pediatric primary care providers focus primarily on intensive lifestyle intervention with escalation of treatment intensity through four stages of intervention. Although a recent surge in the number of Food and Drug Administration-approved medications for obesity treatment has emerged in adults, pharmacotherapy options for youth remain limited. Recognizing treatment and knowledge gaps related to pharmacological agents and the urgent need for more effective treatment strategies in this population, discussed here are the efficacy, safety, and clinical application of obesity pharmacotherapy in youth with obesity based on current literature. Legal ramifications, informed consent regulations, and appropriate off-label use of these medications in pediatrics are included, focusing on prescribing practices and prescriber limits.
Obesity (
Silver
Spring) 2019 02
PMID:Clinical Considerations Regarding the Use of Obesity Pharmacotherapy in Adolescents with Obesity. 3067 62
Concordant with soaring obesity rates, nonalcoholic
fatty liver
disease (NAFLD) has become the most common chronic liver disease in the world. The obesity epidemic demands interventions to reverse obesity-associated
hepatic steatosis
, NAFLD, and nonalcoholic steatohepatitis, and several new pharmacologic approaches have been developed within the past several years. Steatosis develops when energy delivery to the liver, modulated by rates of hepatic lipogenesis, exceeds the capacity of the liver to utilize or export this energy. Therefore, pharmacologic approaches to reverse
hepatic steatosis
have focused largely, though not exclusively, on (1) reducing substrate availability to the liver, (2) reducing hepatic lipid synthesis, and (3) increasing hepatic mitochondrial fat oxidation (Figure 1). This Perspective will discuss these three classes of emerging pharmacologic therapies against
hepatic steatosis
, with the ultimate intent to ameliorate NAFLD and/or nonalcoholic steatohepatitis, and the advantages and pitfalls afforded by each strategy to treat these epidemics of obesity-associated liver disease.
Obesity (
Silver
Spring) 2019 09
PMID:Novel Strategies to Treat Hepatic Steatosis and Steatohepatitis. 3134 16
The discovery that functional brown adipose tissue (BAT) in adult humans is inversely related to body fat mass and may reflect metabolic health has stimulated adipose tissue research to explore activation of BAT as a potential target for antiobesity treatments. In addition to the capacity of BAT to increase energy expenditure and glucose and lipid uptake, BAT secretes factors that may contribute to the regulation of whole-body metabolism. Among signals released from BAT, neuregulin 4 (NRG4) has been recently identified as an endocrine factor that may link the activation of BAT to protection against diet-induced obesity, insulin resistance, and
hepatic steatosis
. NRG4 was shown to directly reduce lipogenesis in hepatocytes, and it could indirectly activate BAT via sympathetic neurons or via inducing brown adipocyte-like signatures in white adipocytes in a paracrine manner. However, the potential relevance of NRG4 as a diagnostic tool or target for the treatment of obesity-related diseases remains to be explored.
Obesity (
Silver
Spring) 2019 10
PMID:Neuregulin 4: A "Hotline" Between Brown Fat and Liver. 3147 2
Obesity is one of the most serious global health problems, with an incidence that increases yearly and coincides with the development of a variety of associated comorbidities (e.g., type 2 diabetes, nonalcoholic
fatty liver
disease, some immune-related disorders). Although many studies have investigated the pathogenesis of overweight and obesity, multiple regulatory factors underlying the onset of obesity-related metabolic disorders remain elusive. Macrophages contribute to modulation of obesity-related inflammation and insulin resistance (IR); adipose tissue macrophages are particularly important in this context. Based on newly identified links between the chemokine system and obesity, macrophage polarization has become an essential target of new therapies for obesity-related IR. The findings of multiple studies imply that variations in gut microbiota and its metabolites might contribute to the regulation of obesity and related metabolic disorders. Recently, several novel antidiabetic drugs, applied as treatment for weight loss, were shown to be effective for obesity-induced IR and other comorbidities. The present review will discuss the properties and functions of macrophages in adipose tissue under conditions of obesity from three perspectives: the chemokine system, the gut microbiota, and antidiabetic drug application. It is proposed that macrophages might be a key therapeutic target for obesity-induced complications.
Obesity (
Silver
Spring) 2020 02
PMID:Adipose Tissue Macrophage Phenotypes and Characteristics: The Key to Insulin Resistance in Obesity and Metabolic Disorders. 3190 35
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