Protective Effects of Fucoxanthin on Hydrogen Peroxide-Induced Calcification of Heart Valve Interstitial Cells

Chiang, Yi‐Fen; Tsai, Chih-Hung; Chen, Hsin‐Yuan; Wang, Kai-Lee; Chang, Ho‐Myung; Huang, Yun-Ju; Hong, Yong‐Han; Ali, Mohamed; Shieh, Tzong‐Ming; Huang, Tsui-Chin; Lin, Chih‐Yuan; Hsia, Shih Min

doi:10.3390/md19060307

Cited by 12 publications

(12 citation statements)

References 38 publications

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“…Cardiovascular diseases (CVDs) are the most common cause of death worldwide, killing around 17.9 million people each year [ 69 ]. Some CVDs involve inflammatory reactions leading to oxidative damage and apoptosis [ 70 ]. The acute myocardial infarction is also associated with elevated levels of ROS and oxidative stress [ 71 ].…”

Section: Resultsmentioning

confidence: 99%

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A Systematic Review on Marine Algae-Derived Fucoxanthin: An Update of Pharmacological Insights

et al. 2022

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Fucoxanthin, belonging to the xanthophyll class of carotenoids, is a natural antioxidant pigment of marine algae, including brown macroalgae and diatoms. It represents 10% of the total carotenoids in nature. The plethora of scientific evidence supports the potential benefits of nutraceutical and pharmaceutical uses of fucoxanthin for boosting human health and disease management. Due to its unique chemical structure and action as a single compound with multi-targets of health effects, it has attracted mounting attention from the scientific community, resulting in an escalated number of scientific publications from January 2017 to February 2022. Fucoxanthin has remained the most popular option for anti-cancer and anti-tumor activity, followed by protection against inflammatory, oxidative stress-related, nervous system, obesity, hepatic, diabetic, kidney, cardiac, skin, respiratory and microbial diseases, in a variety of model systems. Despite much pharmacological evidence from in vitro and in vivo findings, fucoxanthin in clinical research is still not satisfactory, because only one clinical study on obesity management was reported in the last five years. Additionally, pharmacokinetics, safety, toxicity, functional stability, and clinical perspective of fucoxanthin are substantially addressed. Nevertheless, fucoxanthin and its derivatives are shown to be safe, non-toxic, and readily available upon administration. This review will provide pharmacological insights into fucoxanthin, underlying the diverse molecular mechanisms of health benefits. However, it requires more activity-oriented translational research in humans before it can be used as a multi-target drug.

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Section: Resultsmentioning

confidence: 99%

“…Fucoxanthin prevented oxidative stress-induced apoptosis by enhancing antioxidant activity and downregulating apoptotic markers caspase-3, caspase-8, and caspase-9, etc. Furthermore, it aided cell survival and protected from calcification [ 70 ].…”

Section: Resultsmentioning

confidence: 99%

A Systematic Review on Marine Algae-Derived Fucoxanthin: An Update of Pharmacological Insights

et al. 2022

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“…Troxerutin also inactivates acetylcholinesterase and activates PI3K/AKT in Alzheimer’s disease models ( Table 6 ) [ 393 ]. Moreover, fucoxanthin, a marine seaweed-derived carotenoid, suppresses H 2 O 2 -triggered ROS generation and apoptosis by down-regulating H 2 O 2 -activated AKT and ERK expression [ 376 ].…”

Section: Natural Products Regulate Akt-modulated Cell Functionsmentioning

confidence: 99%

The Impact of Oxidative Stress and AKT Pathway on Cancer Cell Functions and Its Application to Natural Products

et al. 2022

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Oxidative stress and AKT serine-threonine kinase (AKT) are responsible for regulating several cell functions of cancer cells. Several natural products modulate both oxidative stress and AKT for anticancer effects. However, the impact of natural product-modulating oxidative stress and AKT on cell functions lacks systemic understanding. Notably, the contribution of regulating cell functions by AKT downstream effectors is not yet well integrated. This review explores the role of oxidative stress and AKT pathway (AKT/AKT effectors) on ten cell functions, including apoptosis, autophagy, endoplasmic reticulum stress, mitochondrial morphogenesis, ferroptosis, necroptosis, DNA damage response, senescence, migration, and cell-cycle progression. The impact of oxidative stress and AKT are connected to these cell functions through cell function mediators. Moreover, the AKT effectors related to cell functions are integrated. Based on this rationale, natural products with the modulating abilities for oxidative stress and AKT pathway exhibit the potential to regulate these cell functions, but some were rarely reported, particularly for AKT effectors. This review sheds light on understanding the roles of oxidative stress and AKT pathway in regulating cell functions, providing future directions for natural products in cancer treatment.

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“…In addition, fucoxanthin is known to reduce the risk factor of cardiovascular diseases, such as hyperlipidemia, inflammatory markers, hypertension, insulin resistance, and obesity [ 102 ]. Furthermore, fucoxanthin inhibited apoptosis by a decreased ROS formation and reduced calcification and extracellular matrix accumulation through phosphorylation regulation of AKT and ERK in H 2 O 2 -induced calcification [ 67 ]. Moreover, in an in vivo dog model, fucoxanthin improved compensatory cardiac hypertrophy and valve function [ 67 ].…”

Section: Protective Effect Of Natural Antioxidants On Cavs Developmentmentioning

confidence: 99%

“…Furthermore, fucoxanthin inhibited apoptosis by a decreased ROS formation and reduced calcification and extracellular matrix accumulation through phosphorylation regulation of AKT and ERK in H 2 O 2 -induced calcification [ 67 ]. Moreover, in an in vivo dog model, fucoxanthin improved compensatory cardiac hypertrophy and valve function [ 67 ]. Thus, fucoxanthin can protect human valvular interstitial cells from damage from H 2 O 2 -induced oxidative stress via various mechanisms, including cytoprotective efficacy against H 2 O 2 and inhibition of Akt/ERK-related signaling pathways.…”

Section: Protective Effect Of Natural Antioxidants On Cavs Developmentmentioning

confidence: 99%

Oxidative Stress in Calcific Aortic Valve Stenosis: Protective Role of Natural Antioxidants

Adhikari

Shiwakoti

et al. 2022

Antioxidants

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Calcific aortic valve stenosis (CAVS) is the most prevalent heart valvular disease worldwide and a slowly progressive disorder characterized by thickening of the aortic valve, calcification, and subsequent heart failure. Valvular calcification is an active cell regulation process in which valvular interstitial cells involve phenotypic conversion into osteoblasts/chondrocytes-like cells. The underlying pathophysiology is complicated, and there have been no pharmacological treatments for CAVS to date. Recent studies have suggested that an increase in oxidative stress is the major trigger of CAVS, and natural antioxidants could ameliorate the detrimental effects of reactive oxygen species in the pathogenesis of CAVS. It is imperative to review the current findings regarding the role of natural antioxidants in CAVS, as they can be a promising therapeutic approach for managing CAVS, a disorder currently without effective treatment. This review summarizes the current findings on molecular mechanisms associated with oxidative stress in the development of valvular calcification and discusses the protective roles of natural antioxidants in the prevention and treatment of CAVS.

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Protective Effects of Fucoxanthin on Hydrogen Peroxide-Induced Calcification of Heart Valve Interstitial Cells

Cited by 12 publications

References 38 publications

A Systematic Review on Marine Algae-Derived Fucoxanthin: An Update of Pharmacological Insights

A Systematic Review on Marine Algae-Derived Fucoxanthin: An Update of Pharmacological Insights

The Impact of Oxidative Stress and AKT Pathway on Cancer Cell Functions and Its Application to Natural Products

Oxidative Stress in Calcific Aortic Valve Stenosis: Protective Role of Natural Antioxidants

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