Targeted reduction of advanced glycation improves renal function in obesity

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Targeted reduction of advanced glycation improves renal function in obesity. / Harcourt, Brooke E; Sourris, Karly C; Coughlan, Melinda T; Walker, Karen Z; Dougherty, Sonia L; Andrikopoulos, Sofianos; Morley, Amy L; Thallas-Bonke, Vicki; Chand, Vibhasha; Penfold, Sally A; de Courten, Maximilian P J; Thomas, Merlin C; Kingwell, Bronwyn A; Bierhaus, Angelika; Cooper, Mark E; Courten, Barbora de; Forbes, Josephine M.

In: Kidney International, Vol. 80, No. 2, 01.07.2011, p. 190-8.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Harcourt, BE, Sourris, KC, Coughlan, MT, Walker, KZ, Dougherty, SL, Andrikopoulos, S, Morley, AL, Thallas-Bonke, V, Chand, V, Penfold, SA, de Courten, MPJ, Thomas, MC, Kingwell, BA, Bierhaus, A, Cooper, ME, Courten, BD & Forbes, JM 2011, 'Targeted reduction of advanced glycation improves renal function in obesity', Kidney International, vol. 80, no. 2, pp. 190-8. https://doi.org/10.1038/ki.2011.57

APA

Harcourt, B. E., Sourris, K. C., Coughlan, M. T., Walker, K. Z., Dougherty, S. L., Andrikopoulos, S., Morley, A. L., Thallas-Bonke, V., Chand, V., Penfold, S. A., de Courten, M. P. J., Thomas, M. C., Kingwell, B. A., Bierhaus, A., Cooper, M. E., Courten, B. D., & Forbes, J. M. (2011). Targeted reduction of advanced glycation improves renal function in obesity. Kidney International, 80(2), 190-8. https://doi.org/10.1038/ki.2011.57

Vancouver

Harcourt BE, Sourris KC, Coughlan MT, Walker KZ, Dougherty SL, Andrikopoulos S et al. Targeted reduction of advanced glycation improves renal function in obesity. Kidney International. 2011 Jul 1;80(2):190-8. https://doi.org/10.1038/ki.2011.57

Author

Harcourt, Brooke E ; Sourris, Karly C ; Coughlan, Melinda T ; Walker, Karen Z ; Dougherty, Sonia L ; Andrikopoulos, Sofianos ; Morley, Amy L ; Thallas-Bonke, Vicki ; Chand, Vibhasha ; Penfold, Sally A ; de Courten, Maximilian P J ; Thomas, Merlin C ; Kingwell, Bronwyn A ; Bierhaus, Angelika ; Cooper, Mark E ; Courten, Barbora de ; Forbes, Josephine M. / Targeted reduction of advanced glycation improves renal function in obesity. In: Kidney International. 2011 ; Vol. 80, No. 2. pp. 190-8.

Bibtex

@article{dfad6e996cf346adbad2b2b66ed3fdcf,
title = "Targeted reduction of advanced glycation improves renal function in obesity",
abstract = "Obesity is highly prevalent in Western populations and is considered a risk factor for the development of renal impairment. Interventions that reduce the tissue burden of advanced glycation end-products (AGEs) have shown promise in stemming the progression of chronic disease. Here we tested if treatments that lower tissue AGE burden in patients and mice would improve obesity-related renal dysfunction. Overweight and obese individuals (body mass index (BMI) 26-39¿kg/m(2)) were recruited to a randomized, crossover clinical trial involving 2 weeks each on a low- and a high-AGE-containing diet. Renal function and an inflammatory profile (monocyte chemoattractant protein-1 (MCP-1) and macrophage migration inhibitory factor (MIF)) were improved following the low-AGE diet. Mechanisms of advanced glycation-related renal damage were investigated in a mouse model of obesity using the AGE-lowering pharmaceutical, alagebrium, and mice in which the receptor for AGE (RAGE) was deleted. Obesity, resulting from a diet high in both fat and AGE, caused renal impairment; however, treatment of the RAGE knockout mice with alagebrium improved urinary albumin excretion, creatinine clearance, the inflammatory profile, and renal oxidative stress. Alagebrium treatment, however, resulted in decreased weight gain and improved glycemic control compared with wild-type mice on a high-fat Western diet. Thus, targeted reduction of the advanced glycation pathway improved renal function in obesity.",
author = "Harcourt, {Brooke E} and Sourris, {Karly C} and Coughlan, {Melinda T} and Walker, {Karen Z} and Dougherty, {Sonia L} and Sofianos Andrikopoulos and Morley, {Amy L} and Vicki Thallas-Bonke and Vibhasha Chand and Penfold, {Sally A} and {de Courten}, {Maximilian P J} and Thomas, {Merlin C} and Kingwell, {Bronwyn A} and Angelika Bierhaus and Cooper, {Mark E} and Courten, {Barbora de} and Forbes, {Josephine M}",
year = "2011",
month = jul,
day = "1",
doi = "10.1038/ki.2011.57",
language = "English",
volume = "80",
pages = "190--8",
journal = "Kidney International",
issn = "0085-2538",
publisher = "Elsevier",
number = "2",

}

RIS

TY - JOUR

T1 - Targeted reduction of advanced glycation improves renal function in obesity

AU - Harcourt, Brooke E

AU - Sourris, Karly C

AU - Coughlan, Melinda T

AU - Walker, Karen Z

AU - Dougherty, Sonia L

AU - Andrikopoulos, Sofianos

AU - Morley, Amy L

AU - Thallas-Bonke, Vicki

AU - Chand, Vibhasha

AU - Penfold, Sally A

AU - de Courten, Maximilian P J

AU - Thomas, Merlin C

AU - Kingwell, Bronwyn A

AU - Bierhaus, Angelika

AU - Cooper, Mark E

AU - Courten, Barbora de

AU - Forbes, Josephine M

PY - 2011/7/1

Y1 - 2011/7/1

N2 - Obesity is highly prevalent in Western populations and is considered a risk factor for the development of renal impairment. Interventions that reduce the tissue burden of advanced glycation end-products (AGEs) have shown promise in stemming the progression of chronic disease. Here we tested if treatments that lower tissue AGE burden in patients and mice would improve obesity-related renal dysfunction. Overweight and obese individuals (body mass index (BMI) 26-39¿kg/m(2)) were recruited to a randomized, crossover clinical trial involving 2 weeks each on a low- and a high-AGE-containing diet. Renal function and an inflammatory profile (monocyte chemoattractant protein-1 (MCP-1) and macrophage migration inhibitory factor (MIF)) were improved following the low-AGE diet. Mechanisms of advanced glycation-related renal damage were investigated in a mouse model of obesity using the AGE-lowering pharmaceutical, alagebrium, and mice in which the receptor for AGE (RAGE) was deleted. Obesity, resulting from a diet high in both fat and AGE, caused renal impairment; however, treatment of the RAGE knockout mice with alagebrium improved urinary albumin excretion, creatinine clearance, the inflammatory profile, and renal oxidative stress. Alagebrium treatment, however, resulted in decreased weight gain and improved glycemic control compared with wild-type mice on a high-fat Western diet. Thus, targeted reduction of the advanced glycation pathway improved renal function in obesity.

AB - Obesity is highly prevalent in Western populations and is considered a risk factor for the development of renal impairment. Interventions that reduce the tissue burden of advanced glycation end-products (AGEs) have shown promise in stemming the progression of chronic disease. Here we tested if treatments that lower tissue AGE burden in patients and mice would improve obesity-related renal dysfunction. Overweight and obese individuals (body mass index (BMI) 26-39¿kg/m(2)) were recruited to a randomized, crossover clinical trial involving 2 weeks each on a low- and a high-AGE-containing diet. Renal function and an inflammatory profile (monocyte chemoattractant protein-1 (MCP-1) and macrophage migration inhibitory factor (MIF)) were improved following the low-AGE diet. Mechanisms of advanced glycation-related renal damage were investigated in a mouse model of obesity using the AGE-lowering pharmaceutical, alagebrium, and mice in which the receptor for AGE (RAGE) was deleted. Obesity, resulting from a diet high in both fat and AGE, caused renal impairment; however, treatment of the RAGE knockout mice with alagebrium improved urinary albumin excretion, creatinine clearance, the inflammatory profile, and renal oxidative stress. Alagebrium treatment, however, resulted in decreased weight gain and improved glycemic control compared with wild-type mice on a high-fat Western diet. Thus, targeted reduction of the advanced glycation pathway improved renal function in obesity.

U2 - 10.1038/ki.2011.57

DO - 10.1038/ki.2011.57

M3 - Journal article

C2 - 21412218

VL - 80

SP - 190

EP - 198

JO - Kidney International

JF - Kidney International

SN - 0085-2538

IS - 2

ER -

ID: 33852140