Your search keyword '"Merry, Troy L."' showing total 10 results

1. The CREBRF diabetes-protective rs373863828-A allele is associated with enhanced early insulin release in men of Māori and Pacific ancestry

Author

Burden, Hannah J., Adams, Shannon, Kulatea, Braydon, Wright-McNaughton, Morag, Sword, Danielle, Ormsbee, Jennifer J., Watene-O’Sullivan, Conor, Merriman, Tony R., Knopp, Jennifer L., Chase, J. Geoffrey, Krebs, Jeremy D., Hall, Rosemary M., Plank, Lindsay D., Murphy, Rinki, Shepherd, Peter R., and Merry, Troy L.

Published

2021

2. Habitual Dietary Patterns, Nutrient Intakes, and Adherence to the Mediterranean Diet among New Zealand Adults: The NZ MED Cross-Sectional Study.

Author

Lovell, Amy L., Roy, Rajshri, Klein, Alana, Cavadino, Alana, Foster, Meika, Krebs, Jeremy D., Braakhuis, Andrea, and Merry, Troy L.

Abstract

There is increasing evidence that adherence to a Mediterranean dietary pattern reduces the incidence of diet-related diseases. To date, the habitual dietary intake of New Zealand (NZ) adults has not been examined in relation to its alignment with a Mediterranean-style dietary pattern. This study aimed to define the habitual dietary patterns, nutrient intakes, and adherence to the Mediterranean Diet in a sample of 1012 NZ adults (86% female, mean age 48 ± 16 years) who had their diabetes risk defined by the Australian Type 2 Diabetes Risk Assessment Tool (AUSDRISK). Dietary intakes were collected using a validated semi-quantitative NZ food frequency questionnaire, and dietary patterns were identified using principal component analysis. Reported intakes from the FFQ were used in conjunction with the Mediterranean-Style Dietary Pattern Score (MSDPS) to determine adherence to a Mediterranean dietary pattern. Mixed linear models were used to analyze the association between dietary patterns and MSDPS with demographics, health factors, and nutrient intakes. Two distinct dietary patterns were identified: Discretionary (positive loadings on processed meat, meat/poultry, fast food, sweet drinks, and sugar, sweets, and baked good) and Guideline (positive loadings on vegetables, eggs/beans, and fruits). Adherence to dietary patterns and diet quality was associated with age and ethnicity. Dietary patterns were also associated with sex. Adherence to a Mediterranean dietary pattern defined by the MSDPS was low, indicating that a significant shift in food choices will be required if the Mediterranean Diet is to be adopted in the NZ population. [ABSTRACT FROM AUTHOR]

Published

2023

3. A role for β‐catenin in diet‐induced skeletal muscle insulin resistance.

Author

Masson, Stewart W. C., Dissanayake, Waruni C., Broome, Sophie C., Hedges, Christopher P., Peeters, Wouter M., Gram, Martin, Rowlands, David S., Shepherd, Peter R., and Merry, Troy L.

Subjects

INSULIN resistance, SKELETAL muscle, TYPE 2 diabetes, MUSCLE proteins, HIGH-fat diet

Abstract

A central characteristic of insulin resistance is the impaired ability for insulin to stimulate glucose uptake into skeletal muscle. While insulin resistance can occur distal to the canonical insulin receptor‐PI3k‐Akt signaling pathway, the signaling intermediates involved in the dysfunction are yet to be fully elucidated. β‐catenin is an emerging distal regulator of skeletal muscle and adipocyte insulin‐stimulated GLUT4 trafficking. Here, we investigate its role in skeletal muscle insulin resistance. Short‐term (5‐week) high‐fat diet (HFD) decreased skeletal muscle β‐catenin protein expression 27% (p = 0.03), and perturbed insulin‐stimulated β‐cateninS552 phosphorylation 21% (p = 0.009) without affecting insulin‐stimulated Akt phosphorylation relative to chow‐fed controls. Under chow conditions, mice with muscle‐specific β‐catenin deletion had impaired insulin responsiveness, whereas under HFD, both mice exhibited similar levels of insulin resistance (interaction effect of genotype × diet p < 0.05). Treatment of L6‐GLUT4‐myc myocytes with palmitate lower β‐catenin protein expression by 75% (p = 0.02), and attenuated insulin‐stimulated β‐catenin phosphorylationS552 and actin remodeling (interaction effect of insulin × palmitate p < 0.05). Finally, β‐cateninS552 phosphorylation was 45% lower in muscle biopsies from men with type 2 diabetes while total β‐catenin expression was unchanged. These findings suggest that β‐catenin dysfunction is associated with the development of insulin resistance. [ABSTRACT FROM AUTHOR]

Published

2023

4. α1-Antitrypsin A treatment attenuates neutrophil elastase accumulation and enhances insulin sensitivity in adipose tissue of mice fed a high-fat diet.

Author

D'Souza, Randall F., Masson, Stewart W. C., Woodhead, Jonathan S. T., James, Samuel L., MacRae, Caitlin, Hedges, Christopher P., and Merry, Troy L.

Subjects

INSULIN receptors, ELASTASES, INSULIN sensitivity, LEUKOCYTE elastase, HIGH-fat diet, ADIPOSE tissues, WHITE adipose tissue

Abstract

Neutrophils accumulate in insulin-sensitive tissues during obesity and may play a role in impairing insulin sensitivity. The major serine protease expressed by neutrophils is neutrophil elastase (NE), which is inhibited endogenously by a1-antitrypsin A (A1AT). We investigated the effect of exogenous (A1AT) treatment on diet-induced metabolic dysfunction. Male C57Bl/6j mice fed a chow or a high-fat diet (HFD) were randomized to receive intraperitoneal injections three times weekly of either Prolastin (human A1AT; 2 mg) or vehicle (PBS) for 10 wk. Prolastin treatment did not affect plasma NE concentration, body weight, glucose tolerance, or insulin sensitivity in chow-fed mice. In contrast, Prolastin treatment attenuated HFD-induced increases in plasma and white adipose tissue (WAT) NE without affecting circulatory neutrophil levels or increases in body weight. Prolastin-treated mice fed a HFD had improved insulin sensitivity, as assessed by insulin tolerance test, and this was associated with higher insulin-dependent IRS-1 (insulin receptor substrate) and AktSer473 phosphorylation, and reduced inflammation markers in WAT but not liver or muscle. In 3T3-L1 adipocytes, Prolastin reversed recombinant NE-induced impairment of insulin-stimulated glucose uptake and IRS-1 phosphorylation. Furthermore, PDGF mediated p-AktSer473 activation and glucose uptake (which is independent of IRS-1) was not affected by recombinant NE treatment. Collectively, our findings suggest that NE infiltration of WAT during metabolic overload contributes to insulin resistance by impairing insulin-induced IRS-1 signaling. [ABSTRACT FROM AUTHOR]

Published

2021

5. Short‐term high‐intensity interval training exercise does not affect gut bacterial community diversity or composition of lean and overweight men.

Author

Rettedal, Elizabeth A., Cree, Julia M. E., Adams, Shannon E., MacRae, Caitlin, Skidmore, Paula M. L., Cameron‐Smith, David, Gant, Nicholas, Blenkiron, Cherie, and Merry, Troy L.

Subjects

HIGH-intensity interval training, BACTERIAL diversity, CARDIOVASCULAR fitness, BACTERIAL communities, OVERWEIGHT men, AEROBIC bacteria, BACTERIOPLANKTON

Abstract

New Findings: What is the central question of this study?Does short‐term high‐intensity interval training alter the composition of the microbiome and is this associated with exercise‐induced improvements in cardiorespiratory fitness and insulin sensitivity?What is the main finding and its importance?Although high‐intensity interval training increased insulin sensitivity and cardiovascular fitness, it did not alter the composition of the microbiome. This suggests that changes in the composition of the microbiome that occur with prolonged exercise training might be in response to changes in metabolic health rather than driving exercise training‐induced adaptations. Regular exercise reduces the risk of metabolic diseases, and the composition of the gut microbiome has been associated with metabolic function. We investigated whether short‐term high‐intensity interval training (HIIT) altered the diversity and composition of the bacterial community and whether there were associations with markers of insulin sensitivity or aerobic fitness. Cardiorespiratory fitness (V̇O2peak) and body composition (dual energy X‐ray absorptiometry scan) were assessed and faecal and fasted blood samples collected from 14 lean (fat mass 21 ± 2%, aged 29 ± 2 years) and 15 overweight (fat mass 33 ± 2%, aged 31 ± 2 years) men before and after 3 weeks of HIIT training (8–12 × 60 s cycle ergometer bouts at V̇O2peak power output interspersed by 75 s rest, three times per week). Gut microbiome composition was analysed by 16S rRNA gene amplicon sequencing. The HIIT significantly increased the aerobic fitness of both groups (P < 0.001) and improved markers of insulin sensitivity (lowered fasted insulin and HOMA‐IR; P < 0.001) in the overweight group. Despite differences in the abundance of several bacterial taxa being evident between the lean and overweight group, HIIT did not affect the overall bacterial diversity or community structure (α‐diversity or β‐diversity). No associations were found between the top 50 most abundant bacterial genera and cardiorespiratory fitness markers; however, significant associations (P < 0.05) were observed between the abundance of the bacterial species Coprococcus_3, Blautia, Lachnospiraceae_ge and Dorea and insulin sensitivity markers in the overweight group. Our results suggest that short‐term HIIT does not greatly impact the overall composition of the gut microbiome, but that certain microbiome genera are associated with insulin sensitivity markers that were improved by HIIT in overweight participants. [ABSTRACT FROM AUTHOR]

Published

2020

6. Metabolic syndrome severity score (MetSSS) associates with metabolic health status in multi-ethnic Aotearoa New Zealand cohorts.

Author

Merry, Troy L., Metcalf, Patricia, Scragg, Robert, Gearry, Richard, Foster, Meika, and Krebs, Jeremy D.

Subjects

*METABOLIC syndrome, *TYPE 2 diabetes, *ETHNIC groups, *HEART metabolism disorders, *GAUSSIAN distribution

Abstract

Aim: To investigate the relationship of metabolic syndrome severity score (MetSSS) with glucose regulatory and cardiovascular disease (CVD) status in Aotearoa New Zealand.Methods: MetSSS and MetSSS component coefficients were calculated for participants from the cross-sectional Workforce Diabetes Study (WDS) (n = 5,806) and Diabetes, Heart and Health Survey (DHAH) (n = 4,010) and compared by ethnicity (European, Māori, Pacific and Asian), glucose regulatory status [impaired fasting glucose, impaired glucose tolerance and type 2 diabetes) and history of cardiovascular disease.Results: MetSSS positively associated with impaired glucose regulatory status and history of cardiovascular disease for all ethnic groups. Ethnicity significantly affected different coefficients of the MetSSS components, however all ethnicities had an approximately normal MetSSS distribution, with Māori and Pacific curves being right-shifted compared to European. While the MetSSS thresholds that capture 80% of participant with type 2 diabetes (T2D) were higher for Māori and Pacific, the difference in MetSSS between those participants with and without type 2 diabetes within an ethnicity group was similar across ethnicities.Conclusion: MetSSS may have utility as a tool to quantify an individual's cardiometabolic disease risk within the multi-ethnic population of Aotearoa New Zealand, however ethnic-specific categories for disease risk are likely to be required. [ABSTRACT FROM AUTHOR]

Published

2022

7. High-Fat-Fed Obese Glutathione Peroxidase 1-Deficient Mice Exhibit Defective Insulin Secretion but Protection from Hepatic Steatosis and Liver Damage.

Author

Merry, Troy L., Tran, Melanie, Stathopoulos, Maria, Wiede, Florian, Fam, Barbara Christianne, Dodd, Garron T., Clarke, Iain, Watt, Matthew J., Andrikopoulos, Sofianos, and Tiganis, Tony

Subjects

*GLUTATHIONE, *OBESITY, *LIVER diseases, *DIABETES complications, *LIPID synthesis

Abstract

Aims: Reactive oxygen species (ROS) such as H2O2 can promote signaling through the inactivation of protein tyrosine phosphatases (PTPs). However, in obesity, the generation of ROS exceeds the antioxidant reserve and can contribute to the promotion of insulin resistance. Glutathione peroxidase 1 (Gpx1) is an antioxidant enzyme that eliminates H2O2. Here, we have used Gpx1−/− mice to assess the impact of oxidative stress on glucose homeostasis in the context of obesity. Results: Gpx1−/− mice fed an obesogenic high-fat diet for 12 weeks exhibited systemic oxidative stress and hyperglycemia, but had unaltered whole-body insulin sensitivity, improved hepatic insulin signaling, and decreased whole-body glucose production. High-fat-fed Gpx1−/− mice also exhibited decreased hepatic steatosis and liver damage accompanied by decreased plasma insulin and decreased glucose-induced insulin secretion. The decreased insulin secretion was associated with reduced islet β cell pancreatic and duodenal homeobox-1 (Pdx1) and insulin content, elevated pancreatic PTP oxidation (including PTPN2 oxidation), and elevated signal transducer and activator of transcription 1 (STAT1) Y701 phosphorylation. Innovation and Conclusion: Taken together, these results are consistent with H2O2 inactivating pancreatic PTPs (such as the STAT1 phosphatase PTPN2) for the promotion of STAT-1 signaling to suppress Pdx1 expression and differentiation and, consequently, reduce β cell insulin secretion. We propose that the decreased insulin secretion, in turn, results in decreased hepatic lipogenesis and steatosis, attenuates liver damage, and improves hepatic insulin signaling to suppress hepatic glucose production. Limiting insulin secretion may help combat the development of hepatic steatosis and liver damage in diet-induced obesity. Antioxid. Redox Signal. 20, 2114-2129. [ABSTRACT FROM AUTHOR]

Published

2014

8. The minor allele of the CREBRF rs373863828 p.R457Q coding variant is associated with reduced levels of myostatin in males: Implications for body composition.

Author

Lee, Kate, Vakili, Sanaz, Burden, Hannah J., Adams, Shannon, Smith, Greg C., Kulatea, Braydon, Wright-McNaughton, Morag, Sword, Danielle, Watene-O'Sullivan, Conor, Atiola, Robert D., Paul, Ryan G., Plank, Lindsay D., Kallingappa, Prasanna, King, Frances, Wilcox, Phillip, Merriman, Tony R., Krebs, Jeremy D., Hall, Rosemary M., Murphy, Rinki, and Merry, Troy L.

Abstract

The minor allele (A) of the rs373863828 variant (p.Arg457Gln) in CREBRF is restricted to indigenous peoples of the Pacific islands (including New Zealand Māori and peoples of Polynesia), with a frequency of up to 25% in these populations. This allele associates with a large increase in body mass index (BMI) but with significantly lower risk of type-2 diabetes (T2D). It remains unclear whether the increased BMI is driven by increased adiposity or by increased lean mass. We undertook body composition analysis using DXA in 189 young men of Māori and Pacific descent living in Aotearoa New Zealand. Further investigation was carried out in two orthologous Arg458Gln knockin mouse models on FVB/NJ and C57BL/6j backgrounds. The rs373863828 A allele was associated with lower fat mass when adjusted for BMI (p < 0.05) and was associated with significantly lower circulating levels of the muscle inhibitory hormone myostatin (p < 0.05). Supporting the human data, significant reductions in adipose tissue mass were observed in the knockin mice. This was more significant in older mice in both backgrounds and appeared to be the result of reduced age-associated increases in fat mass. The older male knockin mice on C57BL/6j background also had increased grip strength (p < 0.01) and lower levels of myostatin (p < 0.05). Overall, these results prove that the rs373863828 A-allele is associated with a reduction of myostatin levels which likely contribute to an age-dependent lowering of fat mass, at least in males. • The CREBRF p.457Gln variant associates with decreased fat mass in males. • Consistent with this CREBRF p.457Gln associates with decreased myostatin levels. • These effects are more obvious with age. [ABSTRACT FROM AUTHOR]

Published

2022

9. Leptin and Insulin Act on POMC Neurons to Promote the Browning of White Fat.

Author

Dodd, Garron T., Decherf, Stephanie, Loh, Kim, Simonds, Stephanie E., Wiede, Florian, Balland, Eglantine, Merry, Troy L., Münzberg, Heike, Zhang, Zhong-Yin, Kahn, Barbara B., Neel, Benjamin G., Bence, Kendra K., Andrews, Zane B., Cowley, Michael A., and Tiganis, Tony

Subjects

*PROOPIOMELANOCORTIN, *PHYSIOLOGICAL effects of leptin, *PHYSIOLOGICAL effects of insulin, *WHITE adipose tissue, *METABOLIC disorders, *FAT cells, *OBESITY

Abstract

Summary The primary task of white adipose tissue (WAT) is the storage of lipids. However, “beige” adipocytes also exist in WAT. Beige adipocytes burn fat and dissipate the energy as heat, but their abundance is diminished in obesity. Stimulating beige adipocyte development, or WAT browning, increases energy expenditure and holds potential for combating metabolic disease and obesity. Here, we report that insulin and leptin act together on hypothalamic neurons to promote WAT browning and weight loss. Deletion of the phosphatases PTP1B and TCPTP enhanced insulin and leptin signaling in proopiomelanocortin neurons and prevented diet-induced obesity by increasing WAT browning and energy expenditure. The coinfusion of insulin plus leptin into the CNS or the activation of proopiomelanocortin neurons also increased WAT browning and decreased adiposity. Our findings identify a homeostatic mechanism for coordinating the status of energy stores, as relayed by insulin and leptin, with the central control of WAT browning. [ABSTRACT FROM AUTHOR]

Published

2015

10. Plasma mitochondrial derived peptides MOTS-c and SHLP2 positively associate with android and liver fat in people without diabetes.

Author

Sequeira, Ivana R., Woodhead, Jonathan S.T., Chan, Alex, D'Souza, Randall F., Wan, Junxiang, Hollingsworth, Kieren G., Plank, Lindsay D., Cohen, Pinchas, Poppitt, Sally D., and Merry, Troy L.

Subjects

*ADIPOSE tissues, *MAGNETIC resonance imaging, *OVERWEIGHT persons, *DIABETES, *NUCLEAR magnetic resonance spectroscopy, *FAT

Abstract

Mitochondrial-derived peptides (MDPs) are encoded by the mitochondrial genome and hypothesised to form part of a retrograde signalling network that modulates adaptive responses to metabolic stress. To understand how metabolic stress regulates MDPs in humans we assessed the association between circulating MOTS-c and SHLP2 and components of metabolic syndrome (MS), as well as depot-specific fat mass in participants without overt type 2 diabetes or cardiovascular disease. One-hundred and twenty-five Chinese participants (91 male, 34 female) had anthropometry, whole body dual-energy X-ray absorptiometry scans and fasted blood samples analysed. Chinese female participants and an additional 34 European Caucasian female participants also underwent magnetic resonance imaging and spectroscopy (MRI/S) for visceral, pancreatic and liver fat quantification. In Chinese participants (age = 41 ± 1 years, BMI = 27.8 ± 3.9 kg/m2), plasma MOTS-c (315 ± 27 pg/ml) and SHLP2 (1393 ± 82 pg/ml) were elevated in those with MS (n = 26). While multiple components of the MS sequelae positively associated with both MOTS-c and SHLP2, including blood pressure, fasting plasma glucose and triglycerides, the most significant of these was waist circumference (p < 0.0001). Android fat had a greater effect on increasing plasma MOTS-c (p < 0.004) and SHLP2 (p < 0.009) relative to whole body fat. Associations with MRI/S parameters corrected for total body fat mass revealed that liver fat positively associated with plasma MOTS-c and SHLP2 and visceral fat with SHLP2. Consistent with hepatic stress being a driver of circulating MDP concentrations, plasma MOTS-c and SHLP2 were higher in participants with elevated liver damage markers and in male C57Bl/6j mice fed a diet that induces hepatic lipid accumulation and damage. Our findings provide evidence that in the absence of overt type 2 diabetes, components of the MS positively associated with levels of MOTS-c and SHLP2 and that android fat, in particular liver fat, is a primary driver of these associations. MOTS-c and SHLP2 have previously been shown to have cyto- and metabolo-protective properties, therefore we suggest that liver stress may be a mitochondrial peptide signal, and that mitochondrial peptides are part of a hepatic centric-hormetic response intended to restore metabolic balance. • Mitochondrial-derived peptides (MDPs) form part of metabolic stress response signalling network. • Plasma MDPs MOTS-c and SHLP2 were elevated in metabolic syndrome (MS). • MS associated MDP elevation was driven by android fat, and in particular liver fat. • Liver stress may be a primary mitochondrial peptide signal. [ABSTRACT FROM AUTHOR]

Published

2021