An Association between Insulin Resistance and Neurodegeneration in Zebrafish Larval Model (Danio rerio)

Razip, Nurliyana Najwa Md; Noor, Suzita Mohd; Norazit, Anwar; Nordin, Norshariza; Sakeh, Nurshafika Mohd; Khaza’ai, Huzwah

doi:10.3390/ijms23158290

Cited by 6 publications

(4 citation statements)

References 76 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Moreover, zebrafish larvae also developed an oxidative stress confirmed by the substantially high levels of the biomarker malondialdehyde (MDA), and the upregulation of MAPK and claudin‐5a genes. Altogether, these results confirm that the mechanisms of neurogeneration were altered and the blood–brain barrier further injured (Md Razip et al., 2022).…”

Section: Zebrafish Models For Diabetes and Diabetic Pathologiessupporting

confidence: 78%

Beyond drug discovery: Exploring the physiological and methodological dimensions of zebrafish in diabetes research

Roohi,

Faizan,

Shaikh

et al. 2024

Experimental Physiology

View full text Add to dashboard Cite

Diabetes mellitus is a chronic disease that is now considered a global epidemic. Chronic diabetes conditions include type 1 and type 2 diabetes, both of which are normally irreversible. As a result of long‐term uncontrolled high levels of glucose, diabetes can progress to hyperglycaemic pathologies, such as cardiovascular diseases, retinopathy, nephropathy and neuropathy, among many other complications. The complete mechanism underlying diabetes remains unclear due to its complexity. In this scenario, zebrafish (Danio rerio) have arisen as a versatile and promising animal model due to their good reproducibility, simplicity, and time‐ and cost‐effectiveness. The Zebrafish model allows us to make progress in the investigation and comprehension of the root cause of diabetes, which in turn would aid in the development of pharmacological and surgical approaches for its management. The current review provides valuable reference information on zebrafish models, from the first zebrafish diabetes models using genetic, disease induction and chemical approaches, to the newest ones that further allow for drug screening and testing. This review aims to update our knowledge related to diabetes mellitus by gathering the most authoritative studies on zebrafish as a chemical, dietary and insulin induction, and genetic model for diabetes research.

show abstract

Section: Zebrafish Models For Diabetes and Diabetic Pathologiessupporting

confidence: 78%

Beyond drug discovery: Exploring the physiological and methodological dimensions of zebrafish in diabetes research

Roohi,

Faizan,

Shaikh

et al. 2024

Experimental Physiology

View full text Add to dashboard Cite

show abstract

“…Previous research has demonstrated that the constitutively active pdx1 can effectively induce insulin production (Imai et al., 2005). When zebrafish larvae were exposed to excessive insulin resulting in insulin resistance, the size of their yolk sac increased significantly, suggesting reduced yolk consumption (Md Razip et al., 2022). Interestingly, in cavefish, insulin resistance aids in adaptation to a nutrient‐limited environment (Riddle et al., 2018).…”

Section: Discussionmentioning

confidence: 99%

Genome sequencing of Coryphaenoides yaquinae reveals convergent and lineage‐specific molecular evolution in deep‐sea adaptation

Li,

Song,

et al. 2024

Molecular Ecology Resources

View full text Add to dashboard Cite

Abyssal (3501–6500 m) and hadal (>6500 m) fauna evolve under harsh abiotic stresses, characterized by high hydrostatic pressure, darkness and food shortage, providing unique opportunities to investigate mechanisms underlying environmental adaptation. Genomes of several hadal species have recently been reported. However, the genetic adaptation of deep sea species across a broad spectrum of ocean depths has yet to be thoroughly investigated, due to the challenges imposed by collecting the deep sea species. To elucidate the correlation between genetic innovation and vertical distribution, we generated a chromosome‐level genome assembly of the macrourids Coryphaenoides yaquinae, which is widely distributed in the abyssal/hadal zone ranging from 3655 to 7259 m in depth. Genomic comparisons among shallow, abyssal and hadal‐living species identified idiosyncratic and convergent genetic alterations underlying the extraordinary adaptations of deep‐sea species including light perception, circadian regulation, hydrostatic pressure and hunger tolerance. The deep‐sea fishes (Coryphaenoides Sp. and Pseudoliparis swirei) venturing into various ocean depths independently have undergone convergent amino acid substitutions in multiple proteins such as rhodopsin 1, pancreatic and duodenal homeobox 1 and melanocortin 4 receptor which are known or verified in zebrafish to be related with vision adaptation and energy expenditure. Convergent evolution events were also identified in heat shock protein 90 beta family member 1 and valosin‐containing protein genes known to be related to hydrostatic pressure adaptation specifically in fishes found around the hadal range. The uncovering of the molecular convergence among the deep‐sea species shed new light on the common genetic innovations required for deep‐sea adaptation by the fishes.

show abstract

“…Dorsemans et al (32) found that acute and chronic hyperglycemia impaired the regeneration and de novo formation of zebrafish neuronal cells, resulting to adverse effects on neurogenesis and brain healing. Alteration in the metabolic physiology associated with neurodegeneration was also found in the insulin resistance zebrafish larvae model by Razip et al (33). To evaluate the prevention of E70 on diabetic complication, the protective effect of PRA on peripheral nerve was evaluated by detecting the fluorescence intensity of peripheral motor nerve of normal and hyperglycemic zebrafish.…”

Section: Protective Effect Of Peripheral Motor Nervementioning

confidence: 94%

Mitigation of Paeoniae Radix Alba extracts on H2O2-induced oxidative damage in HepG2 cells and hyperglycemia in zebrafish, and identification of phytochemical constituents

Zhang

Deng²,

Wang³

et al. 2023

Front. Nutr.

View full text Add to dashboard Cite

Paeoniae Radix Alba (PRA), as a Traditional Chinese Medicine, is widely used in Chinese cuisine due to high health-benefits and nutrition, but the effect of different polarity of solvents on the extraction of antioxidant and hypoglycemic constituents, as well as the major active compounds remain unclear. In this research, 40, 70, and 95% ethanol were firstly applied to extract the polyphenols from PRA, the extraction yields, total phenolics, and total flavonoids content, free radical scavenging ability, α-glucosidase inhibition ability, and anti-glycation ability of extracts were evaluated spectroscopically. The oxidative damage protection, hypoglycemic activity, and alleviation on peripheral nerve damage were evaluated by H2O2-induced HepG2 cells and hyperglycemic zebrafish models. UPLC-QTOF-MS/MS was used to identify the major chemical constituents. The results showed that 40, 70, and 95% ethanol exhibited insignificant difference on the extraction of phenolics and flavonoids from PRA. All extracts showed promising DPPH⋅ and ABTS⋅+ scavenging ability, α-glucosidase inhibition and anti-glycation ability. In addition, PRA extracts could restore the survival rate of HepG2 cells induced by H2O2, and alleviate the oxidative stress by reducing the content of MDA and increasing the levels of SOD, CAT, and GSH-Px. The 70% ethanol extract could also mitigate the blood glucose level and peripheral motor nerve damage of hyperglycemic zebrafish. Thirty-five compounds were identified from 70% ethanol extract, gallotannins, gallic acid and its derivatives, and paeoniflorin and its derivatives were the dominant bioactive compounds. Above results could provide important information for the value-added application of PRA in functional food and medicinal industry.

show abstract

An Association between Insulin Resistance and Neurodegeneration in Zebrafish Larval Model (Danio rerio)

Cited by 6 publications

References 76 publications

Beyond drug discovery: Exploring the physiological and methodological dimensions of zebrafish in diabetes research

Beyond drug discovery: Exploring the physiological and methodological dimensions of zebrafish in diabetes research

Genome sequencing of Coryphaenoides yaquinae reveals convergent and lineage‐specific molecular evolution in deep‐sea adaptation

Mitigation of Paeoniae Radix Alba extracts on H2O2-induced oxidative damage in HepG2 cells and hyperglycemia in zebrafish, and identification of phytochemical constituents

Contact Info

Product

Resources

About