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Literature DB >> 30018716

Catalpol alleviates renal damage by improving lipid metabolism in diabetic db/db mice.

Pingping Jiang¹, Lei Xiang¹, Zewei Chen¹, Hanqi Lu¹, Lin Zhou², Lebin Yang¹, Yanzhao Ji¹, Yanyan Liu¹, Xiaomin Sun¹, Yingfeng Deng³, Xiaoli Nie¹, Ren Luo¹, Xiaoshan Zhao¹.

Abstract

OBJECTIVE: To evaluate the protective effect of catalpol against diabetic nephropathy in db/db mouse.
METHODS: 8 week old C57BLKS/J db/db mice (type 2 diabetic mouse model) were divided into three groups to feed for 16 weeks on chow diet with or without catalpol supplementation. Their food intake, water consumption, body weight, and fasting glucose levels were recorded every 4 weeks. At the end of study, urine and blood samples were examined for several metabolic variables, and kidneys were harvested for structural characterization and microarray analysis.
RESULTS: Catalpol efficiently lowers the fasting glucose and the 24 h urinary albumin excretion rate. Catalpol significantly lowers serum triglycerides, increases high-density lipoproteins, and improves serum creatinine and urea nitrogen. Catalpol-fed mice preserve their kidney structure and renal function better than chow fed db/db mice. Microarray data indicates that lipid metabolism is a potential target of catalpol in exerting protective effect.
CONCLUSION: Catalpol has a renal protective effect in diabetic db/db mice.

Entities: Chemical Disease Species

Keywords: 24 h urinary albumin; Catalpol; db/db diabetic nephropathy; gene-chip; lipid metabolic process

Year: 2018 PMID： 30018716 PMCID： PMC6038072

Source DB: PubMed Journal: Am J Transl Res Impact factor: 4.060

35 in total

1. Catalpol ameliorates high-fat diet-induced insulin resistance and adipose tissue inflammation by suppressing the JNK and NF-κB pathways.

Authors: Jun Zhou; Gang Xu; Shuai Ma; Fen Li; Miao Yuan; Huibi Xu; Kaixun Huang
Journal: Biochem Biophys Res Commun Date: 2015-10-17 Impact factor: 3.575

2. Reduced proliferation and a high apoptotic frequency of pancreatic beta cells contribute to genetically-determined diabetes susceptibility of db/db BKS mice.

Authors: R Puff; P Dames; M Weise; B Göke; J Seissler; K G Parhofer; A Lechner
Journal: Horm Metab Res Date: 2011-03-16 Impact factor: 2.936

3. The effect of diabetes on incidence and mortality in end-stage renal disease in Germany.

Authors: Falk Hoffmann; Burkhard Haastert; Michael Koch; Guido Giani; Gerd Glaeske; Andrea Icks
Journal: Nephrol Dial Transplant Date: 2010-10-19 Impact factor: 5.992

4. Expression of slc5a8 in kidney and its role in Na(+)-coupled transport of lactate.

Authors: Elangovan Gopal; You-Jun Fei; Mitsuru Sugawara; Seiji Miyauchi; Lina Zhuang; Pamela Martin; Sylvia B Smith; Puttur D Prasad; Vadivel Ganapathy
Journal: J Biol Chem Date: 2004-08-17 Impact factor: 5.157

5. Relationship between [corrected] spatial memory in diabetic rats and protein kinase Cγ, caveolin-1 in the hippocampus and neuroprotective effect of catalpol.

Authors: Haicheng Zhou; Jing Liu; Liyuan Ren; Wei Liu; Qian Xing; Lili Men; Guirong Song; Jianling Du
Journal: Chin Med J (Engl) Date: 2014 Impact factor: 2.628

6. Antibody blockade of c-fms suppresses the progression of inflammation and injury in early diabetic nephropathy in obese db/db mice.

Authors: A K H Lim; F Y Ma; D J Nikolic-Paterson; M C Thomas; L A Hurst; G H Tesch
Journal: Diabetologia Date: 2009-05-23 Impact factor: 10.122

7. Amelioration of Diabetic Mouse Nephropathy by Catalpol Correlates with Down-Regulation of Grb10 Expression and Activation of Insulin-Like Growth Factor 1 / Insulin-Like Growth Factor 1 Receptor Signaling.

Authors: Shasha Yang; Huacong Deng; Qunzhou Zhang; Jing Xie; Hui Zeng; Xiaolong Jin; Zixi Ling; Qiaoyun Shan; Momo Liu; Yuefei Ma; Juan Tang; Qianping Wei
Journal: PLoS One Date: 2016-03-17 Impact factor: 3.240

8. Antidiabetic and antioxidant effects of catalpol extracted from Rehmannia glutinosa (Di Huang) on rat diabetes induced by streptozotocin and high-fat, high-sugar feed.

Authors: Huifeng Zhu; Yuan Wang; Zhiqiang Liu; Jinghuan Wang; Dong Wan; Shan Feng; Xian Yang; Tao Wang
Journal: Chin Med Date: 2016-05-11 Impact factor: 5.455

9. Radio-protective effect of catalpol in cultured cells and mice.

Authors: Chengjie Chen; Zhe Chen; Fang Xu; Chao Zhu; Fanfu Fang; Shi Shu; Min Li; Changquan Ling
Journal: J Radiat Res Date: 2012-09-14 Impact factor: 2.724

10. Anti-diabetic activities of catalpol in db/db mice.

Authors: Qinwen Bao; Xiaozhu Shen; Li Qian; Chen Gong; Maoxiao Nie; Yan Dong
Journal: Korean J Physiol Pharmacol Date: 2016-02-23 Impact factor: 2.016

6 in total

1. Si-Miao-Yong-An (SMYA) Decoction May Protect the Renal Function Through Regulating the Autophagy-Mediated Degradation of Ubiquitinated Protein in an Atherosclerosis Model.

Authors: Ze-Bing Zhu; Ke Song; Wei-Jun Huang; Hui Li; Hui Yang; Yun-Qi Bai; Ke-Ting Guo; Rui-Bing Yang; Wen-Jiao Lou; Chen-Hui Xia; Bo Nie; Wei-Jing Liu
Journal: Front Pharmacol Date: 2020-07-02 Impact factor: 5.810

Review 2. Catalpol in Diabetes and its Complications: A Review of Pharmacology, Pharmacokinetics, and Safety.

Authors: Ying Bai; Ruyuan Zhu; Yimiao Tian; Rui Li; Beibei Chen; Hao Zhang; Bingke Xia; Dandan Zhao; Fangfang Mo; Dongwei Zhang; Sihua Gao
Journal: Molecules Date: 2019-09-11 Impact factor: 4.411

Review 3. The Effects of Natural Iridoids and Anthocyanins on Selected Parameters of Liver and Cardiovascular System Functions.

Authors: Maciej Danielewski; Agnieszka Matuszewska; Beata Nowak; Alicja Z Kucharska; Tomasz Sozański
Journal: Oxid Med Cell Longev Date: 2020-03-31 Impact factor: 6.543

Catalpol alleviates renal damage by improving lipid metabolism in diabetic db/db mice.

1. Catalpol ameliorates high-fat diet-induced insulin resistance and adipose tissue inflammation by suppressing the JNK and NF-κB pathways.

2. Reduced proliferation and a high apoptotic frequency of pancreatic beta cells contribute to genetically-determined diabetes susceptibility of db/db BKS mice.

3. The effect of diabetes on incidence and mortality in end-stage renal disease in Germany.

4. Expression of slc5a8 in kidney and its role in Na(+)-coupled transport of lactate.

5. Relationship between [corrected] spatial memory in diabetic rats and protein kinase Cγ, caveolin-1 in the hippocampus and neuroprotective effect of catalpol.

6. Antibody blockade of c-fms suppresses the progression of inflammation and injury in early diabetic nephropathy in obese db/db mice.

7. Amelioration of Diabetic Mouse Nephropathy by Catalpol Correlates with Down-Regulation of Grb10 Expression and Activation of Insulin-Like Growth Factor 1 / Insulin-Like Growth Factor 1 Receptor Signaling.

8. Antidiabetic and antioxidant effects of catalpol extracted from Rehmannia glutinosa (Di Huang) on rat diabetes induced by streptozotocin and high-fat, high-sugar feed.

9. Radio-protective effect of catalpol in cultured cells and mice.

10. Anti-diabetic activities of catalpol in db/db mice.

1. Si-Miao-Yong-An (SMYA) Decoction May Protect the Renal Function Through Regulating the Autophagy-Mediated Degradation of Ubiquitinated Protein in an Atherosclerosis Model.

Review 2. Catalpol in Diabetes and its Complications: A Review of Pharmacology, Pharmacokinetics, and Safety.

Review 3. The Effects of Natural Iridoids and Anthocyanins on Selected Parameters of Liver and Cardiovascular System Functions.

Review 4. Multiple Biological Effects of an Iridoid Glucoside, Catalpol and Its Underlying Molecular Mechanisms.

Review 5. Molecular and Biochemical Pathways of Catalpol in Alleviating Diabetes Mellitus and Its Complications.

Review 6. NADH/NAD⁺ Redox Imbalance and Diabetic Kidney Disease.

Review 2. Catalpol in Diabetes and its Complications: A Review of Pharmacology, Pharmacokinetics, and Safety.

Review 3. The Effects of Natural Iridoids and Anthocyanins on Selected Parameters of Liver and Cardiovascular System Functions.

Review 4. Multiple Biological Effects of an Iridoid Glucoside, Catalpol and Its Underlying Molecular Mechanisms.

Review 5. Molecular and Biochemical Pathways of Catalpol in Alleviating Diabetes Mellitus and Its Complications.

Review 6. NADH/NAD+ Redox Imbalance and Diabetic Kidney Disease.

Review 6. NADH/NAD⁺ Redox Imbalance and Diabetic Kidney Disease.