Marine Polysaccharides: A Source of Bioactive Molecules for Cell Therapy and Tissue Engineering

Senni, Karim; Pereira, Jessica; Gueniche, Farida; Delbarre-Ladrat, Christine; Sinquin, Corinne; Ratiskol, Jacqueline; Godeau, Gaston; Fischer, Anne‐Marie; Helley, Dominique; Colliec-Jouault, Sylvia

doi:10.3390/md9091664

Cited by 237 publications

(136 citation statements)

References 70 publications

(59 reference statements)

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“…Sulfated polysaccharides have diverse functions such as development, cell differentiation, cell adhesion, cell signaling and cell matrix interactions due to their binding ability with proteins in the tissues (Senni et al 2011). Therefore, they have been found an important role in pharmaceutical and biomedical application.…”

Section: Biomedical Applicationmentioning

confidence: 99%

Biological activities and biomedical potential of sea cucumber (Stichopus japonicus): a review

Lee

et al. 2017

Fish Aquatic Sci

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Members of the phylum Echinodermata, commonly known as echinoderms, are exclusively marine invertebrates. Among the Echinodermata, sea cucumber belongs to the family Holothuroidea. The sea cucumber Stichopus (Apostichous) japonicus (Selenka) is an invertebrate animal inhabiting the coastal sea around Korean, Japan, China, and Russia. Sea cucumber has a significant commercial value, because it contains valuable nutrients such as vitamins and minerals. They possess a number of distinctive biologically and pharmacologically important compounds. In particular, the body wall of sea cucumber is a major edible part. It consists of peptide, collagen, gelatin, polysaccharide, and saponin, which possess several biological activities such as anti-cancer, anti-coagulation, anti-oxidation, and antiosteoclastogenesis. Furthermore, the regenerative capacity of sea cucumber makes it a medically important organism. This review presents the various biological activities and biomedical potential of sea cucumber S. japonicus.

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Section: Biomedical Applicationmentioning

confidence: 99%

Biological activities and biomedical potential of sea cucumber (Stichopus japonicus): a review

Lee

et al. 2017

Fish Aquatic Sci

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“…It is evident in Veda's that peoples were using different types of dressing materials from ancient time but from past few decades the field of biomaterials has evolved greatly [29,30]. An ideal scaffolding material should be biocompatible, porous with inter connected pores, desired mechanical strength, degradation rate as per required function and ability to support cells in three dimensional way [31,32]. The process of regeneration involves implantation of cells onto the designed scaffolding materials for regenerating tissue and subsequent deposition of extracellular matrix.…”

Section: Chitosan With Drug Formulations In Tissue Engineering Applicmentioning

confidence: 99%

Chitosan: A Promising Substrate for Regenerative Medicine in Drug Formulation

Kashyap

Archana

Semwal³

et al. 2015

Springer Series on Polymer and Composite Materials

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Chitosan plays a most important role in the regenerative medication for wound healing. The adhesive nature of chitosan, with their antifungal and bactericidal character, and their permeability to oxygen, is a very important property associated with the treatment of wounds. Different derivatives and combination of chitosan have been reported for this purpose in the form of hydrogels, fibers, membranes, scaffolds and sponges. The purpose of the chapter is to have a closer look in the work done directly by different researchers on the chitosan formulation with potential medicinal applications to provide a better understanding of its usability in regenerative medicine.

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“…These biomolecules present a higher potential for medical and pharmaceutical applications against various disorders [39]. Reduced rates of viral infections in marine GAGs favor the utilization of HP and HS from marine sources [33].…”

Section: Marine Carbohydrate Based Drugs For Ndmentioning

confidence: 99%

Marine Carbohydrate Based Therapeutics for Alzheimer Disease-Mini Review

Manig¹,

Ramachandran²,

Saravanan³

2015

J Neurol Neurosci

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Neurological disorders occur due to recognition of neurological repairs and resources are indirectly scarce, especially in low income and developing countries. They are disorders of the central nervous system and common cause of physiological and economic burden worldwide. Alzheimer's disease (AD) and other dementias is one of the progressive neurodegenerative disorders which causes memory loss and cognitive impairment due to aggregation of misfolded proteins and neurofibrillar tangles in brain. The failure of the conventional drugs to decline disease progression accompanied with numerous adverse effects has forced the researchers to look for efficient drug candidates from alternate natural resources. The marine reservoir with its large biodiversity and untapped resource potential holds numerous molecules of biomedical and clinical importance. In this review, we hypothesize the utilization of the sulfated polysaccharides as glycobased mimetics, leading to the prevention of aggregation of plaques and protein tangles. With further screening and validation, the carbohydrates from the marine sources, thus hold immense potentials to function as alternative therapeutic agent against neurological disorders.

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Marine Polysaccharides: A Source of Bioactive Molecules for Cell Therapy and Tissue Engineering

Cited by 237 publications

References 70 publications

Biological activities and biomedical potential of sea cucumber (Stichopus japonicus): a review

Biological activities and biomedical potential of sea cucumber (Stichopus japonicus): a review

Chitosan: A Promising Substrate for Regenerative Medicine in Drug Formulation

Marine Carbohydrate Based Therapeutics for Alzheimer Disease-Mini Review

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