Nano‐Strategies for Lignin Biomaterials toward Cancer Therapy

Sathasivam, Thenapakiam; Jiao, Kai; Sugiarto, Sigit; Yu, Yong; Soo, Debbie Xiang Yun; Zhu, Qiang; Merzaban, Jasmeen S.; Kai, Dan

doi:10.1002/adhm.202300024

Cited by 11 publications

(3 citation statements)

References 207 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As we described above, the excellent antioxidant activity of lignin compounds provides a basis for their future thorough investigation as a drug-delivery system for various inflammatory diseases, including malignant diseases [ 64 ]. In recent years, various publications, which confirm our results and also demonstrate the effectiveness of lignin-based nanoparticles on cancer treatment, have been reported [ 65 , 66 , 67 ]. Different natural compounds isolated from plant extracts, which possess anti-inflammatory effects, have the potential to inhibit NOX (Nicotinamide adenine dinucleotide phosphate oxidase) activity and to decrease reactive oxygen species (ROS) production [ 68 , 69 ].…”

Section: Resultssupporting

confidence: 90%

Water-Soluble Alkali Lignin as a Natural Radical Scavenger and Anticancer Alternative

Ivanova

Nikolova

Karamalakova

et al. 2023

IJMS

View full text Add to dashboard Cite

Several phytochemicals, which display antioxidant activity and inhibit cancer cell phenotypes, could be used for cancer treatment and prevention. Lignin, as a part of plant biomass, is the second most abundant natural biopolymer worldwide, and represents approximately 30% of the total organic carbon content of the biosphere. Historically, lignin-based products have been viewed as waste materials of limited industrial usefulness, but modern technologies highlight the applicability of lignin in a variety of industrial branches, including biomedicine. The aims of our preliminary study were to compare the antioxidant properties of water-soluble alkali lignin solutions, before and after UV-B irradiation, as well as to clarify their effect on colon cancer cell viability (Colon 26), applied at low (tolerable) concentrations. The results showed a high antioxidant capacity of lignin solutions, compared to a water-soluble control antioxidant standard (Trolox) and remarkable radical scavenging activity was observed after their UV-B irradiation. Diminishment of cell viability as well as inhibition of the proliferative activity of the colon cancer cell line with an increase in alkali lignin concentrations were observed. Our results confirmed that, due to its biodegradable and biocompatible nature, lignin could be a potential agent for cancer therapy, especially in nanomedicine as a drug delivery system.

show abstract

Section: Resultssupporting

confidence: 90%

Water-Soluble Alkali Lignin as a Natural Radical Scavenger and Anticancer Alternative

Ivanova

Nikolova

Karamalakova

et al. 2023

IJMS

View full text Add to dashboard Cite

show abstract

“…The nanoparticles improved the antimicrobial and anti-inflammatory activity of the electrospun fiber meshes, leading to promise for wound healing applications [327]. [190] Nanolignin (NL) and its composites Cancer therapy drug and gene delivery, biosensing, bioimaging, and tissue engineering; therapeutic potency of chemotherapeutic drugs by decreasing their dose and reducing their adverse effects [342] Lignin as decoration for multi-walled nanotubes/PVA-lignin fiber nanocomposites Antimicrobial properties Wound healing/tissue engineering [343] Lignosulfonate/PVA/chitosan 70% reduction in free radicals; good antibacterial abilities at 10% (w/w) lignin; wound healing [220] Kraft lignin/PVA/poly(glycerol sebacate) (PGS) electrospinning PVA-PGS-lignin fibers. Lignin incorporation promotes neural cell proliferation and differentiation.…”

Section: Lignin Use In Green Functional/complex Materialsmentioning

confidence: 99%

Lignins as Promising Renewable Biopolymers and Bioactive Compounds for High-Performance Materials

Vasile

Baican

2023

Polymers

View full text Add to dashboard Cite

The recycling of biomass into high-value-added materials requires important developments in research and technology to create a sustainable circular economy. Lignin, as a component of biomass, is a multipurpose aromatic polymer with a significant potential to be used as a renewable bioresource in many fields in which it acts both as promising biopolymer and bioactive compound. This comprehensive review gives brief insights into the recent research and technological trends on the potential of lignin development and utilization. It is divided into ten main sections, starting with an outlook on its diversity; main properties and possibilities to be used as a raw material for fuels, aromatic chemicals, plastics, or thermoset substitutes; and new developments in the use of lignin as a bioactive compound and in nanoparticles, hydrogels, 3D-printing-based lignin biomaterials, new sustainable biomaterials, and energy production and storage. In each section are presented recent developments in the preparation of lignin-based biomaterials, especially the green approaches to obtaining nanoparticles, hydrogels, and multifunctional materials as blends and bio(nano)composites; most suitable lignin type for each category of the envisaged products; main properties of the obtained lignin-based materials, etc. Different application categories of lignin within various sectors, which could provide completely sustainable energy conversion, such as in agriculture and environment protection, food packaging, biomedicine, and cosmetics, are also described. The medical and therapeutic potential of lignin-derived materials is evidenced in applications such as antimicrobial, antiviral, and antitumor agents; carriers for drug delivery systems with controlled/targeting drug release; tissue engineering and wound healing; and coatings, natural sunscreen, and surfactants. Lignin is mainly used for fuel, and, recently, studies highlighted more sustainable bioenergy production technologies, such as the supercapacitor electrode, photocatalysts, and photovoltaics.

show abstract

“…Along with antimicrobial activity, these polyphenol groups impart various other properties of lignin, such as adhesiveness, antioxidant, and UV protection. , Compared to traditional polymeric nanoparticles, these naturally derived lignin nanoparticles exhibit greater stimuli-responsiveness, biosafety, and minimal toxicity for drug delivery. , Our group has previously used lignin as a reducing agent as well as a matrix for the formulation of core–shell lignin-derived gold–silver nanocomplexes for antimicrobial applications . We have further derived many lignin-based nanoparticles and established their antioxidant, UV-blocking, and antimicrobial properties. , Earlier, various groups have used lignin nanoparticles as a carrier for drug delivery in cancers such as liver and cervical cancer due to its biocompatible nature and enhanced permeability and retention (EPR) effect. − …”

Section: Introductionmentioning

confidence: 99%

Co-Administration of Chemo-Phototherapeutic Loaded Lignin Nanoarchitecture for the Treatment of Skin Cancer Cell Lines and Bacterial Infections

Paul,

De,

Kirar

et al. 2024

ACS Appl. Nano Mater.

View full text Add to dashboard Cite

Epidermoid carcinoma is the utmost frequent type of skin cancer worldwide resulting in bacterial infection-induced chronic wounds. The primary available treatment option is surgery and subsequent skin transplantation, which is challenging in terms of associated pain, full cure, skin regeneration, and cost. Combinatorial chemo-phototherapy involving photodynamic therapy and chemotherapy can be a potential treatment for skin cancers and associated chronic wounds. Herein, we devised a multidrug-loaded nanoformulation (RB@CPT-LNPs) by encapsulating Camptothecin (CPT, a chemotherapeutic agent) into biocompatible lignin nanoparticles (LNPs), followed by surface conjugation with Rose Bengal (RB, a photosensitizer). The RB@CPT-LNPs were found to be highly stable (polydispersity, <0.3) in an aqueous solution with size and Zeta potential 170 nm and −14.7 mV, respectively. The RB@CPT-LNPs showed efficient reactive oxygen species generation (ΦΔ, 0.74) in vitro when activated by light. Importantly, RB@CPT-LNPs showed augmented anticancer activity in skin cancer cells (A431) upon 525 nm laser irradiation compared with a single treatment (photodynamic therapy or chemotherapy). Further, the formulation also showed high photodynamic antimicrobial activity against both Gram-positive and Gram-negative bacteria. Therefore, the developed RB@CPT-LNP formulation could offer an effective strategy for the elimination of skin cancer and skin-tumor-induced chronic wounds.

show abstract

Nano‐Strategies for Lignin Biomaterials toward Cancer Therapy

Cited by 11 publications

References 207 publications

Water-Soluble Alkali Lignin as a Natural Radical Scavenger and Anticancer Alternative

Water-Soluble Alkali Lignin as a Natural Radical Scavenger and Anticancer Alternative

Lignins as Promising Renewable Biopolymers and Bioactive Compounds for High-Performance Materials

Co-Administration of Chemo-Phototherapeutic Loaded Lignin Nanoarchitecture for the Treatment of Skin Cancer Cell Lines and Bacterial Infections

Contact Info

Product

Resources

About