Porcine models for studying complications and organ crosstalk in diabetes mellitus

Renner, Simone; Blutke, Andreas; Clauß, Sebastian; Deeg, Cornelia A.; Kemter, Elisabeth; Merkus, Daphne; Wanke, Rüdiger; Wolf, Eckhard

doi:10.1007/s00441-019-03158-9

Cited by 66 publications

(57 citation statements)

References 293 publications

(372 reference statements)

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“…It occurs as a result of the inefficient processing of insulin [11]. As of 2017, the population of adults between the ages of 20 and 79 that suffered from diabetes was 425 million [12]. This is equivalent to 9.9% of the world's population [12].…”

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confidence: 99%

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Green Synthesis of Gold Nanoparticles Capped with Procyanidins from Leucosidea sericea as Potential Antidiabetic and Antioxidant Agents

et al. 2020

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In this study, procyanidins fractions of dimers and trimers (F1-F2) from the Leucosidea sericea total extract (LSTE) were investigated for their chemical constituents. The total extract and the procyanidins were employed in the synthesis of gold nanoparticles (Au NPs) and fully characterized. Au NPs of 6, 24 and 21 nm were obtained using LSTE, F1 and F2 respectively. Zeta potential and in vitro stability studies confirmed the stability of the particles. The enzymatic activity of LSTE, F1, F2 and their corresponding Au NPs showed strong inhibitory alpha-amylase activity where F1 Au NPs demonstrated the highest with IC 50 of 1.88 µg/mL. On the other hand, F2 Au NPs displayed the strongest alpha-glucosidase activity at 4.5 µg/mL. F2 and F2 Au NPs also demonstrated the highest antioxidant activity, 1834.0 ± 4.7 µM AAE/g and 1521.9 ± 3.0 µM TE/g respectively. The study revealed not only the ability of procyanidins dimers (F1 and F2) in forming biostable and bioactive Au NPs but also, a significant enhancement of the natural products activities, which could improve the smart delivery in future biomedical applications.Biomolecules 2020, 10, 452 2 of 24 applying nanoparticles through the green route is their biocompatibility [5]. Many green synthesized nanoparticles have demonstrated interesting biological activities [5,10] including antimicrobial and antidiabetic properties.Diabetes mellitus has undoubtedly become a serious health challenge. More worrisome is type II diabetes mellitus (T2DM), which accounts for 90% of diabetes mellitus. It occurs as a result of the inefficient processing of insulin [11]. As of 2017, the population of adults between the ages of 20 and 79 that suffered from diabetes was 425 million [12]. This is equivalent to 9.9% of the world's population [12]. By estimation, this disease would have drastically increased by 48% in 28 years if not properly managed [13]. Although drugs like miglitol, vigliobose as well as acarbose are available in the market, they are costly and their continuous use is associated with side effects like diarrhea, dropsy, heart failure, damage to the liver, weight gain, abdominal pain, hyperglycemia, and flatulence, necessitating the need for more potent and newer remedies [14][15][16].It is well established that bioactive compounds in various plants possess significant effects in delaying and management of T2DM [17]. Extracts from different plants have been reported as alpha-glucosidase and alpha-amylase inhibitors [18][19][20][21][22][23][24][25][26][27]. Additionally, biologically synthesized Au NPs using plant extracts showed interesting antidiabetic activity. The extracts of Chamalcostus cuspidatus [28], Gymnema sylvestre [29], Cassia fistula stem bark [30], Hericium erinaceus [31], Turbinaria conoides [32], Sambucus nigra [33] and Sargassum swartzi [34] displayed antidiabetic activities in various investigations. Silver/gold NPs of Ocimum basilicum [35] and cinnamon extract [36] also lowers glucose levels. The use of single molecules as reducing/stabilizing agents for ...

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“…As of 2017, the population of adults between the ages of 20 and 79 that suffered from diabetes was 425 million [12]. This is equivalent to 9.9% of the world's population [12]. By estimation, this disease would have drastically increased by 48% in 28 years if not properly managed [13].…”

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confidence: 99%

Green Synthesis of Gold Nanoparticles Capped with Procyanidins from Leucosidea sericea as Potential Antidiabetic and Antioxidant Agents

et al. 2020

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“…Recently, refined classification systems have been introduced to cover sub-phenotypes of prediabetes and of adult onset diabetes and to facilitate more personalized diabetes treatments (reviewed in Renner et al, 2020).…”

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confidence: 99%

“…Traditionally, diabetic pig models have been generated by partial or total pancreatectomy, or by chemical destruction of the pancreatic beta cells using streptozotocin or alloxan. The advantages and problems of these treatments have been extensively reviewed recently (Renner et al, 2020). Feeding pigs with high-fat/high-energy diet results in obesity and insulin resistance (Renner et al, 2018), but rarely in clinical diabetes without further interventions.…”

Section: Introductionmentioning

confidence: 99%

A decade of experience with genetically tailored pig models for diabetes and metabolic research

Zettler

Kemter

Hinrichs³

et al. 2020

Anim. Reprod.

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The global prevalence of diabetes mellitus and other metabolic diseases is rapidly increasing. Animal models play pivotal roles in unravelling disease mechanisms and developing and testing therapeutic strategies. Rodents are the most widely used animal models but may have limitations in their resemblance to human disease mechanisms and phenotypes. Findings in rodent models are consequently often difficult to extrapolate to human clinical trials. To overcome this 'translational gap', we and other groups are developing porcine disease models. Pigs share many anatomical and physiological traits with humans and thus hold great promise as translational animal models. Importantly, the toolbox for genetic engineering of pigs is rapidly expanding. Human disease mechanisms and targets can therefore be reproduced in pigs on a molecular level, resulting in precise and predictive porcine (PPP) models. In this short review, we summarize our work on the development of genetically (pre)diabetic pig models and how they have been used to study disease mechanisms and test therapeutic strategies. This includes the generation of reporter pigs for studying beta-cell maturation and physiology. Furthermore, genetically engineered pigs are promising donors of pancreatic islets for xenotransplantation. In summary, genetically tailored pig models have become an important link in the chain of translational diabetes and metabolic research.

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“…Large animals such as pigs have become increasingly studied for their immune response, and Pabst reviews these investigational opportunities (Pabst 2020). Renner et al review how pig models can provide robust models for the study of metabolic syndrome and diabetes mellitus (Renner et al 2020), while Zuidema and Sutovsky review how some have harnessed the genetics of pigs to better understand mitochondrial inheritance (Zuidema and Sutovsky 2020). Similarly, Zigo et al review approaches to study porcine sperm and related fertility as a model for humans (Zigo et al 2020), while Ibtisham reviews the use of spermatogonia stem cells in animal models (Ibtisham et al 2020).…”

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Innovative use of animal models to advance scientific research

2020

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Porcine models for studying complications and organ crosstalk in diabetes mellitus

Cited by 66 publications

References 293 publications

Green Synthesis of Gold Nanoparticles Capped with Procyanidins from Leucosidea sericea as Potential Antidiabetic and Antioxidant Agents

Green Synthesis of Gold Nanoparticles Capped with Procyanidins from Leucosidea sericea as Potential Antidiabetic and Antioxidant Agents

A decade of experience with genetically tailored pig models for diabetes and metabolic research

Innovative use of animal models to advance scientific research

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