Antinociceptive and Anti-inflammatory Activities of the Lectin from Marine Red Alga Solieria filiformis

Abreu, Ticiana Monteiro; Ribeiro, Natássia Albuquerque; Chaves, Hellíada Vasconcelos; Jorge, Roberta Jeane Bezerra; Bezerra, Mirna Marques; Monteiro, Helena Serra Azul; Vasconcelos, Ilka M.; Mota, Érika Freitas; Benevídes, Norma Maria Barros

doi:10.1055/s-0042-101762

Cited by 25 publications

(5 citation statements)

References 32 publications

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“…SfL and PcL lectins are effective in controlling inflammatory processes as they are not cytotoxic, promotes increased cell viability and induces Th2 immune response in mouse spleenocytes (Abreu et al 2012). Lectin from S. filiformis can also act as a therapeutic agent owing to its anti-nociceptive and anti-inflammatory potential (Abreu et al 2016). Anti-nociceptive and antiinflammatory activity of S. filiformis lectin was evaluated in Swiss mice and Wistar rats, respectively, which showed reduced number of abdominal writhings, reduced paw licking times and reduced neutrophil migration in a peritonitis model along with no signs of systemic damage (Abreu et al 2016).…”

Section: Anti-nociceptive Anti-inflammatory and Anti-hypernociceptivementioning

confidence: 99%

Lectins from red algae and their biomedical potential

Singh

Walia

2017

J Appl Phycol

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Lectins are unique proteins or glycoproteins of nonimmune origin that bind specifically to carbohydrates. They recognise and interact reversibly to either free carbohydrates or glycoconjugates, without modifying their structure. Lectins are highly diverse and widely distributed in nature and have been extensively reported from various red algae species. Numerous red algae species have been reported to possess lectins having carbohydrate specificity towards complex glycoproteins or high-mannose N-glycans. These lectin-glycan interactions further trigger many biochemical responses which lead to their extensive use as valuable tools in biomedical research. Thus, owing to their exceptional glycan recognition property, red algae lectins are potential candidate for inhibition of various viral diseases. Hence, the present report integrates existing information on the red algae lectins, their carbohydrate specificity, and characteristics of purified lectins. Further, the review also reports the current state of research into their anti-viral activity against various enveloped viruses such as HIV, hepatitis, influenza, encephalitis, coronavirus and herpes simplex virus and other biomedical activities such as anti-cancer, anti-microbial, anti-inflammatory, antinociceptive and acaricidal activities.

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Section: Anti-nociceptive Anti-inflammatory and Anti-hypernociceptivementioning

confidence: 99%

Lectins from red algae and their biomedical potential

Singh

Walia

2017

J Appl Phycol

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“…The final highlight of the results in Table 2 should be given to a relevant number of studies that were condcted in vivo using mice and rats. Most of the reports described the reduction of paw oedema [115,121,126,141,157,[162][163][164][165][166][167] and reduced leukocyte influx/migration [168], or even both [116,[122][123][124][125]169,170], proving that red seaweed-derived compounds are effectively anti-inflammatory. Though a significant number of compounds isolated from Rhodophyta have proven to be anti-inflammatory, both in vitro and in vivo, the opportunity to investigate how these compounds behave in individuals suffering from AV remains open.…”

Section: Anti-inflammatory Extracts and Compounds From Red Macroalgaementioning

confidence: 99%

Red Seaweed-Derived Compounds as a Potential New Approach for Acne Vulgaris Care

Januário

Félix

et al. 2021

Pharmaceutics

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Acne vulgaris (AV) is a chronic skin disease of the pilosebaceous unit affecting both adolescents and adults. Its pathophysiology includes processes of inflammation, increased keratinization, sebum production, hormonal dysregulation, and bacterial Cutibacterium acnes proliferation. Common AV has been treated with antibiotics since the 1960s, but strain resistance has emerged and is of paramount concern. Macroalgae are known producers of substances with bioactive properties, including anti-viral, antibacterial, antioxidant, and anti-inflammatory properties, among several others. In particular, red algae are rich in bioactive compounds such as polysaccharides, phenolic compounds, lipids, sterols, alkaloids, and terpenoids, conferring them antioxidant, antimicrobial, and anti-inflammatory activities, among others. Thus, the exploration of compounds from marine resources can be an appealing approach to discover new treatment options against AV. The aim of this work is to provide an overview of the current knowledge of the potentialities of red macroalgae in the treatment of AV by reviewing the main therapeutic targets of this disease, and then the existence of compounds or extracts with bioactive properties against them.

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“…Marine lectins are glycoproteins or peptides that bind to specific mono or oligosaccharides, which can promote cell recognition and adhesion, and some of them also showed strong anti-inflammatory activity. A lectin from the red marine alga Solieria filiformis reduced neutrophil migration in a peritonitis model and decreased paw edema induced by carrageenan, dextran, and serotonin with no signs of systemic damage in mice [ 67 ]. The anti-inflammatory mechanism of a lectin from the green seaweed Caulerpa cupressoides var.…”

Section: Anti-inflammatory Bioactive Substances Derived From Marine Organismsmentioning

confidence: 99%

Research Progress in Anti-Inflammatory Bioactive Substances Derived from Marine Microorganisms, Sponges, Algae, and Corals

Gao

et al. 2021

Marine Drugs

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Inflammation is the body’s defense reaction in response to stimulations and is the basis of various physiological and pathological processes. However, chronic inflammation is undesirable and closely related to the occurrence and development of diseases. The ocean gives birth to unique and diverse bioactive substances, which have gained special attention and been a focus for anti-inflammatory drug development. So far, numerous promising bioactive substances have been obtained from various marine organisms such as marine bacteria and fungi, sponges, algae, and coral. This review covers 71 bioactive substances described during 2015–2020, including the structures (65 of which), species sources, evaluation models and anti-inflammatory activities of these substances. This review aims to provide some reference for the research progress of marine-organism-derived anti-inflammatory metabolites and give more research impetus for their conversion to novel anti-inflammatory drugs.

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Antinociceptive and Anti-inflammatory Activities of the Lectin from Marine Red Alga Solieria filiformis

Cited by 25 publications

References 32 publications

Lectins from red algae and their biomedical potential

Lectins from red algae and their biomedical potential

Red Seaweed-Derived Compounds as a Potential New Approach for Acne Vulgaris Care

Research Progress in Anti-Inflammatory Bioactive Substances Derived from Marine Microorganisms, Sponges, Algae, and Corals

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