Jessica F. Briffa scite author profile

Emerging research has highlighted the importance of leptin in fetal growth and development independent of its essential role in the maintenance of hunger and satiety through the modulation of neuropeptide Y and proopiomelanocortin neurons. Alterations in maternal-placental-fetal leptin exchange may modify the development of the fetus and contribute to the increased risk of developing disease in adulthood. In addition, leptin also plays an important role in reproductive functions, with plasma leptin concentrations rising in pregnant women, peaking during the third trimester. Elevated plasma leptin concentrations occur at the completion of organogenesis, and research in animal models has demonstrated that leptin is involved in the development and maturation of a number of organs, including the heart, brain, kidneys, and pancreas. Elevated maternal plasma leptin is associated with maternal obesity, and reduced fetal plasma leptin is correlated with intrauterine growth restriction. Alterations in plasma leptin during development may be associated with an increased risk of developing a number of adulthood diseases, including cardiovascular, metabolic, and renal diseases via altered fetal development and organogenesis. Importantly, research has shown that leptin antagonism after birth significantly reduces maturation of numerous organs. Conversely, restoration of the leptin deficiency after birth in growth-restricted animals restores the offspring's body weight and improves organogenesis. Therefore, leptin appears to play a major role in organogenesis, which may adversely affect the risk of developing a number of diseases in adulthood. Therefore, greater understanding of the role of leptin during development may assist in the prevention and treatment of a number of disease states that occur in adulthood.

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Adipokines as a link between obesity and chronic kidney disease

Briffa

McAinch

Poronnik

et al. 2013

American Journal of Physiology-Renal Physiology

125

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Adipocytes secrete a number of bioactive adipokines that activate a variety of cell signaling pathways in central and peripheral tissues. Obesity is associated with the altered production of many adipokines and is linked to a number of pathologies. As an increase in body weight is directly associated with an increased risk for developing chronic kidney disease (CKD), there is significant interest in the link between obesity and renal dysfunction. Altered levels of the adipokines leptin, adiponectin, resistin, and visfatin can decrease the glomerular filtration rate and increase albuminuria, which are pathophysiological changes typical of CKD. Specifically, exposure of the glomerulus to altered adipokine levels can increase its permeability, fuse the podocytes, and cause mesangial cell hypertrophy, all of which alter the glomerular filtration rate. In addition, the adipokines leptin and adiponectin can act on tubular networks. Thus, adipokines can act on multiple cell types in the development of renal pathophysiology. Importantly, most studies have been performed using in vitro models, with future studies in vivo required to further elucidate the specific roles that adipokines play in the development and progression of CKD.

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Maternal exercise in rats upregulates the placental insulin‐like growth factor system with diet‐ and sex‐specific responses: minimal effects in mothers born growth restricted

Mangwiro

Cuffe

Briffa

et al. 2018

The Journal of Physiology

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The insulin-like growth factor (IGF) system regulates fetoplacental growth and plays a role in disease programming. Dysregulation of the IGF system is implicated in several pregnancy perturbations associated with altered fetal growth, including intrauterine growth restriction and maternal obesity. Limited human studies have demonstrated that maternal exercise enhances fetoplacental growth and decreases cord IGF ligands, which may restore the placental IGF system in complicated pregnancies. This study investigated the impact maternal exercise has on the placental IGF system in placentae from mothers born growth restricted and if these outcomes are dependent on maternal diet or fetal sex. Uteroplacental insufficiency (Restricted) or sham (Control) surgery was induced on embryonic day (E) 18 in Wistar-Kyoto rats. F1 offspring were fed a chow or high-fat diet from weaning, and at 16 weeks were randomly allocated an exercise protocol: Sedentary, Exercised prior to and during pregnancy (Exercise), or Exercised during pregnancy only (PregEx). Females were mated (20 weeks) with placentae associated with F2 fetuses collected at E20. The placental IGF system mRNA abundance and placental morphology was altered in mothers born growth restricted. Exercise increased fetal weight and Control plasma IGF1 concentrations, and decreased female placental weight. PregEx did not influence fetoplacental growth but increased placental IGF1 and IGF1R (potentially modulated by reduced Let 7f-1 miRNA) and decreased placental IGF2 protein. Importantly, these placental IGF system changes occurred with sex-specific responses. These data highlight that exercise differently influences fetoplacental growth and the placental IGF system depending on maternal exercise initiation, which may prevent the transgenerational transmission of deficits and dysfunction.

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Renal effects of chronic pharmacological manipulation of CB₂ receptors in rats with diet‐induced obesity

Jenkin

O’Keefe

Simcocks

et al. 2015

British J Pharmacology

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BACKGROUND AND PURPOSEIn diabetic nephropathy agonism of CB2 receptors reduces albuminuria and podocyte loss; however, the role of CB 2 receptors in obesity-related nephropathy is unknown. The aim of this study was to determine the role of CB 2 receptors in a model of diet-induced obesity (DIO) and characterize the hallmark signs of renal damage in response to agonism (AM1241) and antagonism (AM630) of CB2 receptors. EXPERIMENTAL APPROACHMale Sprague Dawley rats were fed a high-fat diet (HFD: 40% digestible energy from lipids) for 10 weeks. In another cohort, after 9 weeks on a HFD, rats were injected daily with either 3 mg·kg − 1 AM1241, 0.3 mg·kg −1 AM630 or saline for 6 weeks. KEY RESULTSTen weeks on a HFD significantly reduced renal expression of CB2 receptors and renal function. Treatment with AM1241 or AM630 did not reduce weight gain or food consumption in DIO. Despite this, AM1241 significantly reduced systolic BP, peri-renal adipose accumulation, plasma leptin, urinary protein, urinary albumin, urinary sodium excretion and the fibrotic markers TGF-β1, collagen IV and VEGF in kidney lysate. Treatment with AM630 of DIO rats significantly reduced creatinine clearance and increased glomerular area and kidney weight (gross and standardized for body weight). Diastolic BP, glucose tolerance, insulin sensitivity, plasma creatinine, plasma TGF-β1 and kidney expression of fibronectin and α-smooth muscle actin were not altered by either AM1241 or AM630 in DIO. CONCLUSIONSThis study demonstrates that while agonism of CB2 receptors with AM1241 treatment for 6 weeks does not reduce weight gain in obese rats, it leads to improvements in obesity-related renal dysfunction. AbbreviationsCB1 receptor, cannabinoid receptor 1; CB2 receptor, cannabinoid receptor 2; CKD, chronic kidney disease; DIO, diet-induced obesity; eGFR, estimated glomerular filtration rate; HFD, high-fat diet; PAS, periodic acid-Schiff

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Jessica F. Briffa

Leptin in pregnancy and development: a contributor to adulthood disease?

Adipokines as a link between obesity and chronic kidney disease

Maternal exercise in rats upregulates the placental insulin‐like growth factor system with diet‐ and sex‐specific responses: minimal effects in mothers born growth restricted

Renal effects of chronic pharmacological manipulation of CB₂ receptors in rats with diet‐induced obesity

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Jessica F. Briffa

Leptin in pregnancy and development: a contributor to adulthood disease?

Adipokines as a link between obesity and chronic kidney disease

Maternal exercise in rats upregulates the placental insulin‐like growth factor system with diet‐ and sex‐specific responses: minimal effects in mothers born growth restricted

Renal effects of chronic pharmacological manipulation of CB2 receptors in rats with diet‐induced obesity

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Resources

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Renal effects of chronic pharmacological manipulation of CB₂ receptors in rats with diet‐induced obesity