P1-079: NOVEL DUAL GLP-1/GIP RECEPTOR AGONISTS SHOW NEUROPROTECTIVE EFFECTS IN TWO ANIMAL MODELS OF AD

AbstractAnimal models provide an opportunity to assess the optimal treatment way and the underlying mechanisms of direct clinical application of adipose-derived stem cells (ADSCs). Previous studies have evaluated the effects of primitive and induced ADSCs in animal models of Parkinson’s disease (PD). Here, eight databases were systematically searched for studies on the effects and in vivo changes caused by ADSC intervention. Quality assessment was conducted using a 10-item risk of bias tool. For the subsequent meta-analysis, study characteristics were extracted and effect sizes were computed. Ten out of 2324 published articles (n = 169 animals) were selected for further meta-analysis. After ADSC therapy, the rotation behavior (10 experiments, n = 156 animals) and rotarod performance (3 experiments, n = 54 animals) were improved (P < 0.000 01 and P = 0.000 3, respectively). The rotation behavior test reflected functional recovery, which may be due to the neurogenesis from neuronally differentiated ADSCs, resulting in a higher pooled effect size of standard mean difference (SMD) (− 2.59; 95% CI, − 3.57 to − 1.61) when compared to that of primitive cells (− 2.18; 95% CI, − 3.29 to − 1.07). Stratified analyses by different time intervals indicated that ADSC intervention exhibited a long-term effect. Following the transplantation of ADSCs, tyrosine hydroxylase-positive neurons recovered in the lesion area with pooled SMD of 13.36 [6.85, 19.86]. Transplantation of ADSCs is a therapeutic option that shows long-lasting effects in animal models of PD. The potential mechanisms of ADSCs involve neurogenesis and neuroprotective effects. The standardized induction of neural form of transplanted ADSCs can lead to a future application in clinical practice.

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What combines best with GLP-1 for obesity treatment: GIP receptor agonists or antagonists?

Cell Reports Medicine ◽

10.1016/j.xcrm.2021.100284 ◽

2021 ◽

Vol 2 (5) ◽

pp. 100284

Author(s):

Jens Juul Holst

Keyword(s):

Obesity Treatment ◽

Receptor Agonists ◽

Gip Receptor

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Anxiolytic-like profiles of histamine H3 receptor agonists in animal models of anxiety: a comparative study with antidepressants and benzodiazepine anxiolytic

Psychopharmacology ◽

10.1007/s00213-009-1528-1 ◽

2009 ◽

Vol 205 (2) ◽

pp. 177-187 ◽

Cited By ~ 24

Author(s):

Fumikazu Yokoyama ◽

Miki Yamauchi ◽

Masayo Oyama ◽

Kunihiro Okuma ◽

Kaname Onozawa ◽

...

Keyword(s):

Animal Models ◽

Comparative Study ◽

Histamine H3 Receptor ◽

Receptor Agonists ◽

H3 Receptor ◽

Animal Models Of Anxiety ◽

Histamine H3

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Neuroprotective Effects of A Standardized Flavonoid Extract of Safflower Against Neurotoxin-Induced Cellular and Animal Models of Parkinson’s Disease

Scientific Reports ◽

10.1038/srep22135 ◽

2016 ◽

Vol 6 (1) ◽

Cited By ~ 39

Author(s):

Rutong Ren ◽

Chunyan Shi ◽

Jing Cao ◽

Yi Sun ◽

Xin Zhao ◽

...

Keyword(s):

Parkinson’S Disease ◽

Parkinson's Disease ◽

Animal Models ◽

Neuroprotective Effects

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Neuroprotective effects of sigma-1 receptor agonists against beta-amyloid-induced toxicity

Neuroreport ◽

10.1097/00001756-200508010-00018 ◽

2005 ◽

Vol 16 (11) ◽

pp. 1223-1226 ◽

Cited By ~ 76

Author(s):

Agostino Marrazzo ◽

Filippo Caraci ◽

Elisa Trovato Salinaro ◽

Tsung-Ping Su ◽

Agata Copani ◽

...

Keyword(s):

Beta Amyloid ◽

Neuroprotective Effects ◽

Sigma 1 Receptor ◽

Receptor Agonists ◽

Sigma 1

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Protective effects of the angiotensin II AT2 receptor agonist compound 21 in ischemic stroke: a nose-to-brain delivery approach

Clinical Science ◽

10.1042/cs20180100 ◽

2018 ◽

Vol 132 (5) ◽

pp. 581-593 ◽

Cited By ~ 11

Author(s):

Douglas M. Bennion ◽

Chad H. Jones ◽

Alex N. Dang ◽

Jacob Isenberg ◽

Justin T. Graham ◽

...

Keyword(s):

Ischemic Stroke ◽

Angiotensin Ii ◽

Receptor Agonist ◽

At2 Receptor ◽

Protective Effects ◽

Neuroprotective Effects ◽

Receptor Agonists ◽

Compound 21 ◽

Neuroprotective Actions

Significant neuroprotective effects of angiotensin II type 2 (AT2) receptor (AT2 receptor) agonists in ischemic stroke have been previously demonstrated in multiple studies. However, the routes of agonist application used in these pre-clinical studies, direct intracerebroventricular (ICV) and systemic administration, are unsuitable for translation into humans; in the latter case because AT2 receptor agonists are blood–brain barrier (BBB) impermeable. To circumvent this problem, in the current study we utilized the nose-to-brain (N2B) route of administration to bypass the BBB and deliver the selective AT2 receptor agonist Compound 21 (C21) to naïve rats or rats that had undergone endothelin 1 (ET-1)-induced ischemic stroke. The results obtained from the present study indicated that C21 applied N2B entered the cerebral cortex and striatum within 30 min in amounts that are therapeutically relevant (8.4–9 nM), regardless of whether BBB was intact or disintegrated. C21 was first applied N2B at 1.5 h after stroke indeed provided neuroprotection, as evidenced by a highly significant, 57% reduction in cerebral infarct size and significant improvements in Bederson and Garcia neurological scores. N2B-administered C21 did not affect blood pressure or heart rate. Thus, these data provide proof-of-principle for the idea that N2B application of an AT2 receptor agonist can exert neuroprotective actions when administered following ischemic stroke. Since N2B delivery of other agents has been shown to be effective in certain human central nervous system diseases, the N2B application of AT2 receptor agonists may become a viable mode of delivering these neuroprotective agents for human ischemic stroke patients.

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Resveratrol in Rodent Models of Parkinson’s Disease: A Systematic Review of Experimental Studies

Frontiers in Pharmacology ◽

10.3389/fphar.2021.644219 ◽

2021 ◽

Vol 12 ◽

Author(s):

Cheng-Fu Su ◽

Li Jiang ◽

Xiao-Wen Zhang ◽

Ashok Iyaswamy ◽

Min Li

Keyword(s):

Parkinson’S Disease ◽

Parkinson's Disease ◽

Animal Models ◽

Motor Function ◽

Quantitative Methods ◽

Experimental Studies ◽

Future Research ◽

Rodent Models ◽

Neuroprotective Effects ◽

Systematic Analysis

Parkinson’s disease (PD) is a common neurodegenerative disease featured by progressive degeneration of nigrostriatal dopaminergic neurons (DA) accompanied with motor function impairment. Accumulating evidence has demonstrated that natural compounds from herbs have potent anti-PD efficacy in PD models. Among those compounds, resveratrol, a polyphenol found in many common plants and fruits, is more effective against PD. Resveratrol has displayed a potent neuroprotective efficacy in several PD animal models. However, there is still no systematic analysis of the quality of methodological design of these studies, nor of their results. In this review, we retrieved and analyzed 18 studies describing the therapeutic effect of resveratrol on PD animal models. There are 5 main kinds of PD rodent models involved in the 18 articles, including chemical-induced (MPTP, rotenone, 6-OHDA, paraquat, and maneb) and transgenic PD models. The neuroprotective mechanisms of resveratrol were mainly concentrated on the antioxidation, anti-inflammation, ameliorating mitochondrial dysfunction, and motor function. We discussed the disadvantages of different PD animal models, and we used meta-analysis approach to evaluate the results of the selected studies and used SYRCLE’s risk of bias tool to evaluate the methodological quality. Our analytical approach minimized the bias of different studies. We have also summarized the pharmacological mechanisms of resveratrol on PD models as reported by the researchers. The results of this study support the notion that resveratrol has significant neuroprotective effects on different PD models quantified using qualitative and quantitative methods. The collective information in our review can guide researchers to further plan their future experiments without any hassle regarding preclinical and clinical studies. In addition, this collective assessment of animal studies can provide a qualitative analysis of different PD animal models, either to guide further testing of these models or to avoid unnecessary duplication in their future research.

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