A Potential Adjuvant Agent of Chemotherapy: Sepia Ink Polysaccharides

Li, Fangping; Luo, Ping; Liu, Huazhong

doi:10.3390/md16040106

Cited by 32 publications

(10 citation statements)

References 54 publications

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“…By monomeric units, they can be either homo-or heteroglycans, and by charge, neutral or anionic. Polysaccharides are also classified according to their source: (i) starch, cellulose, and exudate gums from plants; (ii) alginates and galactans from algae; (iii) chitin, chitosan, and glycosaminoglycans from animals; (iv) dextran, pullulan and, gellan and xanthan gums from microorganisms; and (v) glucans from mushrooms (Friedman, 2016;Choong et al, 2018;Li et al, 2018b;Yadav and Karthikeyan, 2019).…”

Section: Natural Polysaccharidesmentioning

confidence: 99%

Beneficial Effects of Polysaccharides on the Epithelial Barrier Function in Intestinal Mucositis

Silva¹,

Silveira²,

Bueno³

et al. 2021

Front. Physiol.

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Intestinal mucositis is a clinically relevant side effect of anticancer therapies. It is experienced by 60–100% of patients undergoing treatment with high doses of chemotherapy, radiation therapy, and bone marrow transplantation. Intestinal mucositis can manifest as pain, weight loss, inflammation, diarrhea, rectal bleeding, and infection; affecting normal nutritional intake and intestinal function. It often impacts adherence to anticancer therapy as it frequently limits patient’s ability to tolerate treatment, causing schedule delays, interruptions, or premature discontinuation. In some cases, local and systemic secondary infections are observed, increasing the costs toward medical care and hospitalization. Several strategies for managing mucositis are available which do not always halt this condition. In this context, new therapeutic strategies are under investigation to prevent or treat intestinal mucositis. Polysaccharides from natural resources have recently become promising molecules against intestinal damage due to their ability to promote mucosal healing and their anti-inflammatory actions. These effects are associated with the protection of intestinal mucosa and regulation of microbiota and immune system. This review aims to discuss the recent advances of polysaccharides from natural resources as potential therapies for intestinal mucositis. The source, species, doses, treatment schedules, and mechanisms of action of polysaccharides will be discussed in detail.

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Section: Natural Polysaccharidesmentioning

confidence: 99%

Beneficial Effects of Polysaccharides on the Epithelial Barrier Function in Intestinal Mucositis

Silva¹,

Silveira²,

Bueno³

et al. 2021

Front. Physiol.

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“…Aubourg et al, [15] đã xác định các chất chiết xuất từ da mực Dosidicus gigas với dung môi ethanol là nguồn chất chống oxy hóa hứa hẹn để làm chậm quá trình oxy hóa lipid của cá. Nghiên cứu của Li et al, [16] cho thấy chất chiết từ mô của mực ống cải thiện khả năng chống oxy hóa của lá lách ở động vật. Tuy nhiên, các nghiên cứu khảo sát về các chất hoạt sinh học của động vật thân mềm và vai trò của chúng như chất kháng oxy hóa ở các loài mực ở nước ta còn khá hạn chế.Trong nghiên cứu này, chúng tôi khảo sát hoạt tính kháng oxy hóa ở một số loài mực ở Khánh Hòa để xác định các hợp chất có tầm quan trọng trong y sinh.…”

Section: Giới Thiệuunclassified

“…Kết quả điện di cũng thể hiện các thành phần protein với các trọng lượng phân tử khác nhau. Nghiên cứu của Vate et al, [16] cho thấy melanin trong mực Loligo formosana các phần có MW dưới 3 kDa có các hoạt động chống oxy hóa cao nhất (p < 0,05), do đó có thể đóng vai trò là chất chống oxy hóa tự nhiên để làm chậm quá trình oxy hóa lipid trong các sản phẩm thực phẩm. Như vậy khả năng kháng oxi hóa của chất chiết từ túi mực nang và mực ống trong khảo sát này có thể chủ yếu là do melamin tạo nên.…”

Section: Thành Phần Protein Của Các Cao Chiết Methnolunclassified

Antioxidant activity of extract from some squid species in Khanh Hoa

Anh,

Ky,

et al. 2021

VJMST

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The antioxidant activities against DPPH free radical of crude extracts using ethyl acetate and methanol from ink sac, muscles, and bones of 5 squid species (Uroteuthis chinensis, Uroteuthis sibogae, Uroteuthis duvaucelii, Sepia esculenta, Sepioteuthis lessoniana) collected in Khanh Hoa waters were investigated. These activities ranged from 4.21% (ethyl acetate extract from ink of U. chinensis) to 54.51% (methanol extract from muscle of S. esculenta.). The functional group analysis by infrared adsorption spectrum (FTIR) in these crude extracts revealed the absorption peaks of melanin in ink, polysaccharide in bone and protein in muscle extracts. In addition, the SDS-PAGE result of some methanol extracts showed the presence of proteins with a molecular weight of 30-150 kDa.

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“…It was demonstrated that Trametes versicolor (Synn. Coriolus versicolor) polysaccharides, fucoidan , and sepia Ink polysaccharides could be applied as adjuvant therapies of cancer, which usually possess low levels of toxicity and have high safety ( 11 – 13 ). Furthermore, polysaccharides could promote the recovery of patients with cancer ( 14 , 15 ).…”

Section: Introductionmentioning

confidence: 99%

Polysaccharides as Potential Anti-tumor Biomacromolecules —A Review

et al. 2022

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Cancer, as one of the most life-threatening diseases, has attracted the attention of researchers to develop drugs with minimal side effects. The bioactive macromolecules, such as the polysaccharides, are considered the potential candidates against cancer due to their anti-tumor activities and non-toxic characteristics. The present review provides an overview on polysaccharides' extraction, isolation, purification, mechanisms for their anti-tumor activities, structure-activity relationships, absorption and metabolism of polysaccharides, and the applications of polysaccharides in anti-tumor therapy. Numerous research showed extraction methods of polysaccharides had a significant influence on their activities. Additionally, the anti-tumor activities of the polysaccharides are closely related to their structure, while molecular modification and high bioavailability may enhance the anti-tumor activity. Moreover, most of the polysaccharides exerted an anti-tumor activity mainly through the cell cycle arrest, anti-angiogenesis, apoptosis, and immunomodulation mechanisms. Also, recommendations were made to utilize the polysaccharides against cancer.

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A Potential Adjuvant Agent of Chemotherapy: Sepia Ink Polysaccharides

Cited by 32 publications

References 54 publications

Beneficial Effects of Polysaccharides on the Epithelial Barrier Function in Intestinal Mucositis

Beneficial Effects of Polysaccharides on the Epithelial Barrier Function in Intestinal Mucositis

Antioxidant activity of extract from some squid species in Khanh Hoa

Polysaccharides as Potential Anti-tumor Biomacromolecules —A Review

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