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Search Results (124)

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Keywords = marine life-derived

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18 pages, 22421 KB  
Article
Alginate Oligosaccharide Alleviates Severe Acute Pancreatitis in Mice via Suppression of Oxidative Stress, Inflammation and Modulation of Intestinal Epithelial Barrier Integrity
by Xianglong Ou, Yi Dai, Xiangyue Hu, Yuan Liu, Shibin Yuan, Le Wang, Bangyuan Wu and Tingting Fang
Biomolecules 2026, 16(6), 917; https://doi.org/10.3390/biom16060917 - 20 Jun 2026
Viewed by 304
Abstract
Severe acute pancreatitis (SAP) is a life-threatening inflammatory disorder characterized by high mortality and limited therapeutic options. Alginate oligosaccharide (AOS), a marine-derived bioactive polysaccharide, exhibits prebiotic, anti-inflammatory and antioxidant properties that are effective against various inflammatory diseases. In this study, a mouse model [...] Read more.
Severe acute pancreatitis (SAP) is a life-threatening inflammatory disorder characterized by high mortality and limited therapeutic options. Alginate oligosaccharide (AOS), a marine-derived bioactive polysaccharide, exhibits prebiotic, anti-inflammatory and antioxidant properties that are effective against various inflammatory diseases. In this study, a mouse model of SAP was established by intraperitoneal injection of cerulein (100 μg/kg) and lipopolysaccharide (5 mg/kg), and the mice were pretreated with AOS (200 mg/kg) by gavage for 4 consecutive weeks to explore the potential protective efficacy and underlying mechanisms. The results shown that AOS attenuated the severity of SAP, as evidenced by reduced serum amylase and lipase levels, as well as alleviated histopathological injury in both pancreatic and ileal tissues. AOS suppressed the overproduction of pro-inflammatory cytokines (IL-1β, IL-6, TNF-α) in serum, pancreas, and ileum at protein or mRNA levels. Moreover, AOS effectively diminished pancreatic and ileal inflammatory infiltration and oxidative stress in SAP mice, accompanied by inhibited the TLR4/MyD88/NF-κB pathway and activated the Nrf2/HO-1 antioxidant axis. Furthermore, AOS restored intestinal barrier integrity, as manifested by upregulated expression of tight junction proteins (claudin-1, occludin, ZO-1), reduced serum diamine oxidase, and decreased bacterial translocation from the gut to the pancreas. It was revealed by 16S rRNA sequencing that AOS ameliorated SAP-induced gut dysbiosis by restoring microbial diversity, normalizing the Firmicutes/Bacteroidetes ratio, enriching beneficial genera (Lactobacillus, Blautia), and enhancing cecal short-chain fatty acid (acetic, propionic, butyric acid) production. Collectively, our findings demonstrate that AOS exerts comprehensive protective effects against SAP through suppression of inflammatory signaling and oxidative stress, as well as restoring gut homeostasis. These results suggest that AOS may serve as a promising prebiotic-based nutritional strategy for the management of SAP. Full article
(This article belongs to the Section Natural and Bio-derived Molecules)
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16 pages, 1738 KB  
Article
Pharmacokinetics and Tissue Distribution of Fluorescently Labeled Neoagarotetraose in Mice
by Nan Wu, Chaocheng Wu, Yating Du, Zhuhua Chan and Runying Zeng
Pharmaceutics 2026, 18(6), 725; https://doi.org/10.3390/pharmaceutics18060725 - 11 Jun 2026
Viewed by 374
Abstract
Background/Objectives: Neoagarotetraose (NA4), a marine-derived tetrasaccharide, holds promise as an anti-inflammatory and antioxidant agent; however, its oral bioavailability and systemic exposure mechanisms require elucidation. Methods: This study characterizes the biopharmaceutical profile of NA4 after oral and intravenous administration using a validated near-infrared fluorescence [...] Read more.
Background/Objectives: Neoagarotetraose (NA4), a marine-derived tetrasaccharide, holds promise as an anti-inflammatory and antioxidant agent; however, its oral bioavailability and systemic exposure mechanisms require elucidation. Methods: This study characterizes the biopharmaceutical profile of NA4 after oral and intravenous administration using a validated near-infrared fluorescence method based on covalent conjugation with Cy7. Results: Following oral gavage (200 mg/kg), NA4-Cy7 was rapidly absorbed (Tmax: 1.0 h; Cmax: 35.6 mg/L), with prolonged systemic exposure (mean residence time: 13.1 h) and an elimination half-life of 8.9 h. Intravenous administration (25 mg/kg) revealed a low volume of distribution at steady state (Vss: 0.0132 L/kg) and a shorter MRT (4.3 h). Tissue distribution at 24 h showed preferential accumulation in the kidney, liver, and lung, with direct visualization of intact NA4 crossing the intestinal epithelium. Conclusions: These findings demonstrate that fluorescently labeled NA4-Cy7 can cross the intestinal epithelial barrier and reach systemic circulation, supporting its potential as an orally active agent with organ-specific targeting properties. Full article
(This article belongs to the Section Pharmacokinetics and Pharmacodynamics)
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29 pages, 1420 KB  
Review
Seaweed Biomass as a Sustainable Raw Material for Food Packaging: A Review on Biomolecules, Properties, Applications, Limitations and Future Perspectives
by Evmorfia Athanasopoulou, Tiago L. C. T. Barroso and Eva Hernández-García
Appl. Sci. 2026, 16(12), 5836; https://doi.org/10.3390/app16125836 - 10 Jun 2026
Viewed by 413
Abstract
Due to the environmental concerns associated with petroleum-based plastics, industry and academia have directed increasing attention toward marine-derived biodegradable biopolymers, particularly those obtained from seaweed. In line with global efforts to enhance resource efficiency and sustainability by introducing non-fossil raw materials into the [...] Read more.
Due to the environmental concerns associated with petroleum-based plastics, industry and academia have directed increasing attention toward marine-derived biodegradable biopolymers, particularly those obtained from seaweed. In line with global efforts to enhance resource efficiency and sustainability by introducing non-fossil raw materials into the circular economy, seaweed valorization has emerged as a promising pathway. Seaweeds are attractive feedstocks due to their biodegradability, non-toxicity, antioxidant activity, and excellent film-forming capacity. This review provides a critical and application-oriented overview of seaweed biomass for food packaging applications by comparatively discussing the relationship between seaweed composition, extraction technologies, material functionality, packaging performance, and regulatory considerations. Emphasis is placed on the role of structural biopolymers and bioactive compounds in the development of passive, active, and intelligent packaging systems. Recent advances in extraction technologies, polymer modification strategies, and incorporation of functional additives are critically discussed in relation to their influence on the physicochemical, mechanical, barrier, antioxidant, and antimicrobial properties of seaweed-based composites. Furthermore, the review highlights key challenges limiting industrial implementation, including high hydrophilicity, high variability between the batches, energy-intensive drying processes, regulatory compliance, migration safety, and long-term material stability. Overall, seaweed-derived materials demonstrate strong potential as sustainable alternatives to conventional packaging systems, particularly in food applications. However, further optimization of processing technologies, material standardization, techno-economic feasibility, and end-of-life management are still required before large-scale commercialization can be achieved. Full article
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58 pages, 1975 KB  
Review
Marine Lipids and Alzheimer’s Disease: Biochemistry, Bioaccessibility/Bioavailability, Metabolism, and Health Effects
by Ana Gomes-Bispo, Carlos Cardoso, Cláudia Afonso, Helena Maria Lourenço, Sónia Pedro, Patrícia Moniz and Narcisa M. Bandarra
Mar. Drugs 2026, 24(6), 197; https://doi.org/10.3390/md24060197 - 3 Jun 2026
Viewed by 689
Abstract
Due to its high prevalence and significant impact on modern society, Alzheimer’s disease (AD) is one of the most important neurodegenerative disorders. It is more common among individuals over the age of 65, and its incidence has increased sharply as a result of [...] Read more.
Due to its high prevalence and significant impact on modern society, Alzheimer’s disease (AD) is one of the most important neurodegenerative disorders. It is more common among individuals over the age of 65, and its incidence has increased sharply as a result of rising life expectancy. Several factors have made it challenging to identify an effective treatment for AD. One major difficulty lies in its complexity, as the mechanisms involved in its progression are not yet fully understood. Nevertheless, the role of diet and lipids has been highlighted by numerous studies, underscoring their potential influence on this pathology. Due to the intricacy of its biochemical and metabolic interactions, this subject continues to be of particular interest, highlighting the need for further research. In this sense, this comprehensive and updated review aimed to elucidate these aspects, especially regarding marine-derived lipids, whose bioactive potential may become an irreplaceable tool in the management of AD, whether in terms of its treatment or prevention. Full article
(This article belongs to the Special Issue Value-Added Products from Marine Fishes, 2nd Edition)
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23 pages, 2709 KB  
Article
Marine Geographic Information Systems, Spatial Analysis Tools in the Management Process of Spanish Marine Protected Areas
by Dulce Mata, Paula Gil, Ángela Bellido and Olvido Tello
ISPRS Int. J. Geo-Inf. 2026, 15(6), 228; https://doi.org/10.3390/ijgi15060228 - 22 May 2026
Viewed by 507
Abstract
Spain’s extensive marine jurisdiction—comprising a continental shelf of approximately 100,000 km2 and an Exclusive Economic Zone approaching one million km2—requires robust geospatial frameworks to support ecosystem assessment and marine policy implementation. This study presents GIS-based methodologies developed by the Spanish [...] Read more.
Spain’s extensive marine jurisdiction—comprising a continental shelf of approximately 100,000 km2 and an Exclusive Economic Zone approaching one million km2—requires robust geospatial frameworks to support ecosystem assessment and marine policy implementation. This study presents GIS-based methodologies developed by the Spanish Oceanographic Institute (IEO-CSIC) within national initiatives such as LIFE IP INTEMARES project and the implementation of Marine Strategy Framework Directive (European Directive 2008/56/EC). The geospatial workflows developed for these initiatives integrates heterogeneous spatial datasets—such as multibeam bathymetry, acoustic backscatter, Remote Operated Vehicle (ROV) and towed-camera transects, sediment samples, oceanographic profiles, and species-habitat occurrence records—into a unified spatial analysis environment. Applied methods include digital terrain modeling, derivation of geomorphometric indices (e.g., slope, rugosity, curvature), image classification, and spatial statistics to quantify habitat extent, condition, and anthropogenic pressures. An integrated spatial analysis framework combining environmental and anthropogenic data is used to support zoning and management decisions within Marine Protected Areas (MPAs). Additionally, the deployment of WebGIS platforms facilitates data dissemination, iterative review, and stakeholder engagement, thereby enhancing transparency and accessibility. The resulting high-resolution maps, harmonized datasets, and computed spatial indicators—aligned with Marine Strategy Framework Directive (MSFD) descriptors such as habitat distribution (D1C4–C5) and seafloor integrity (D6C2–C3)—demonstrate how GIScience methods provide reproducible, decision-ready information to support the monitoring and management of Spain’s diverse marine ecosystems. Full article
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38 pages, 491 KB  
Review
Antioxidant, Anti-Inflammatory and Anticancer Peptides from Extreme Marine Environments
by Muhammad Zakariya, Eleonora Montuori, Gwendoline Kopp, Alessandro Coppola, Daniela Giordano, Stefano Bruno and Chiara Lauritano
Antioxidants 2026, 15(5), 615; https://doi.org/10.3390/antiox15050615 - 13 May 2026
Viewed by 654
Abstract
Marine organisms have proven to be excellent sources of bioactive natural products with potential therapeutic applications. To date, seventeen marine-derived molecules are on the market for the treatment of human diseases, mainly cancer. While multiple bioactivities of marine compounds have been consecutively reported, [...] Read more.
Marine organisms have proven to be excellent sources of bioactive natural products with potential therapeutic applications. To date, seventeen marine-derived molecules are on the market for the treatment of human diseases, mainly cancer. While multiple bioactivities of marine compounds have been consecutively reported, peptides represent promising candidates for these applications. This review focuses on peptides from marine organisms living in extreme marine environments, such as the deep ocean, polar regions, and tropical ecosystems. These are particularly promising for further bioprospecting, since their distinctive conditions have driven the evolution of unique biomolecules, as well as unique stability profile that can improve efficacy, shelf life, and performance under a wide range of industrial conditions. Ziconotide (Prialt), a neurotoxic peptide derived from the venom of a marine snail (Conus sp.) found at depths greater than 1000 m, is already commercially available for the treatment of severe pain. Recent technologies and computational tools are speeding up the discovery of new peptides and enzymes (very few from extreme environments). Overall, the review reports about eight peptides with anticancer properties from deep environments, nine, two and seven from polar habitats with antioxidants, anti-inflammatory and anticancer properties, respectively, and approximately ninety peptides from tropical waters (five antioxidant, thirty-five anti-inflammatory and fifty-four anticancer peptides). However, future studies in extreme environments will need to develop and apply sampling technologies, cultivation systems, as well as methods to assess efficacy, side effects and mechanisms of action, in vitro and in vivo. Full article
(This article belongs to the Special Issue Antioxidants from the Sea and Their Application)
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17 pages, 7183 KB  
Article
The Galvanic Corrosion Behavior of ZCuAl10Fe5Ni5 Coupled with SAF2507 Duplex Stainless Steel in Seawater
by Kunjie Luo, Pu Zhao, Kewei Fang, Wanxiang Zhao, Jiachang Lu, Hongqun Liu, Shuiyong Wang, Mengmeng Zhu and Yanxin Qiao
Metals 2026, 16(5), 473; https://doi.org/10.3390/met16050473 - 27 Apr 2026
Viewed by 431
Abstract
In nuclear power, marine engineering, and other fields, a matching system composed of duplex steel and copper alloy is a common combination for rotating components in a seawater environment. However, this system is susceptible to galvanic corrosion that seriously threatens its service safety [...] Read more.
In nuclear power, marine engineering, and other fields, a matching system composed of duplex steel and copper alloy is a common combination for rotating components in a seawater environment. However, this system is susceptible to galvanic corrosion that seriously threatens its service safety and service life, with ZCuAl10Fe5Ni5 being the main component corroded. Additionally, current corrosion research on this system has evident gaps. Specifically, the influence of area ratio on galvanic corrosion remains insufficiently understood, and the action mechanism of Cl on the ZCuAl10Fe5Ni5-based corrosion product film in seawater, as well as the product evolution path, has not been fully revealed, which restricts the development of targeted protection technologies. This study explores the degradation mechanism of ZCuAl10Fe5Ni5 in a specific high-salinity environment (20,000 mg/L Cl), characteristic of nuclear power plant service conditions. The results show that due to the significant electrode potential difference between the SAF2507 duplex steel and ZCuAl10Fe5Ni5 copper alloy, a stable galvanic couple is formed, with ZCuAl10Fe5Ni5 acting as the anode and undergoing dissolution corrosion. When the area ratio of ZCuAl10Fe5Ni5 (anode) to SAF2507 duplex steel (cathode) is 1:50, a significantly stronger galvanic effect is observed. The high concentration of Cl in seawater can damage the surface of the ZCuAl10Fe5Ni5-based corrosion product film, leading to intensified local corrosion. The ZCuAl10Fe5Ni5-derived corrosion products have a layered structure mainly comprising a mixed system of Cu-Al-Mg oxides/hydroxides, and the corrosion process is accompanied by selective aluminum depletion corrosion. This study provides insight into the corrosion mechanism and key influencing factors of ZCuAl10Fe5Ni5 in the matching system, as well as a theoretical basis and technical support for the design of compatibility metal materials in a seawater environment and the control of corrosion in ZCuAl10Fe5Ni5. Full article
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19 pages, 19227 KB  
Article
Larimichthys crocea Swim Bladder Polysaccharides Attenuate 5-Fluorouracil-Induced Intestinal Injury by Modulating the Gut–Metabolic Axis
by Shouhao Zhao, Ruixue Zhao, Donglin Sui, Yixuan Li, Huan Li, Shugang Li, Chunqing Ai, Xueting Bai, Yilin Sha, Jingxian Yan, Wudeng Wang and Xiaomeng Ren
Foods 2026, 15(8), 1425; https://doi.org/10.3390/foods15081425 - 19 Apr 2026
Viewed by 487
Abstract
5-Fluorouracil (5-FU) is a first-line chemotherapeutic agent for solid tumors, but its clinical application is severely limited by dose-dependent intestinal injury that impairs patient quality of life and compromises therapeutic efficacy. Natural polysaccharides, especially marine-derived ones, have become safe and multi-targeted gut-protective candidates [...] Read more.
5-Fluorouracil (5-FU) is a first-line chemotherapeutic agent for solid tumors, but its clinical application is severely limited by dose-dependent intestinal injury that impairs patient quality of life and compromises therapeutic efficacy. Natural polysaccharides, especially marine-derived ones, have become safe and multi-targeted gut-protective candidates due to their excellent biocompatibility and prebiotic-like activities. Larimichthys crocea swim bladder is a characteristic marine biological resource, and its polysaccharides (CIPs) have shown potential bioactivities, yet their protective mechanism against 5-FU-induced intestinal injury remains unclear. Our study explored the protective effects of Larimichthys crocea swim bladder polysaccharides (CIPs) against 5-FU-induced intestinal injury in mice. Following 14-day preventive administration, CIPs alleviated 5-FU-induced body weight loss, diarrhea, colonic shortening, and mucosal injury, and restored goblet cell function. Mechanistically, CIPs enhanced intestinal barrier integrity by upregulating ZO-1, Occludin, and MUC2, suppressed the MyD88/NF-κB pathway to balance inflammatory cytokines, and ameliorated oxidative stress by regulating MDA, GSH, SOD, and CAT. CIPs also restored gut microbial diversity and the Firmicutes/Bacteroidota ratio, and modulated retinol and arginine metabolism. In vitro, CIPs reduced inflammation and oxidative damage in Caco-2 cells and promoted M2 macrophage polarization. Thus, CIPs alleviate 5-FU-induced intestinal injury via multi-targeted regulation of the gut–metabolic axis, showing great potential as a dietary intervention and gut health support agent in food science and oncology nutrition, and boosting the high-value utilization of marine resources. Full article
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39 pages, 2536 KB  
Review
Emerging Technologies in Blue Foods: Production, Processing, and Omics Perspectives
by Imad Khan, Caimei Wang, Jiangmin Wang, Qiang Zhang, Kunpeng Wang, Ziqian Zhou, Mudassar Hussain, Su Hlaing Phyo, Janice Adaeze Nwankwo and Qiuyu Xia
Foods 2026, 15(8), 1390; https://doi.org/10.3390/foods15081390 - 16 Apr 2026
Viewed by 803
Abstract
The growing global population and increasing pressure on conventional food systems have intensified the search for sustainable and nutrient-rich protein sources. Blue foods derived from marine and freshwater organisms offer significant nutritional advantages and lower environmental footprints compared with many terrestrial animal proteins. [...] Read more.
The growing global population and increasing pressure on conventional food systems have intensified the search for sustainable and nutrient-rich protein sources. Blue foods derived from marine and freshwater organisms offer significant nutritional advantages and lower environmental footprints compared with many terrestrial animal proteins. However, challenges related to resource sustainability, processing, preservation, and product traceability limit their full potential. This review provides a broad overview of emerging technologies shaping the future of blue food systems, covering innovative production strategies, advanced processing techniques, and omics-based analytical approaches. Key developments in cellular aquaculture and cellular mariculture are discussed as promising alternatives to traditional fisheries and aquaculture, enabling the production of blue food through controlled cell cultivation. Additionally, alternative protein platforms including plant-based, fermentation-derived, and cultivated blue food analogues are assessed for their potential to enhance sustainability and diversify aquatic protein sources. Advanced structuring technologies such as extrusion, electrospinning, wet spinning, and 3D printing are highlighted for their roles in developing blue food analogues with improved texture and sensory attributes. Furthermore, non-thermal preservation techniques, including cold plasma (CP), high-pressure processing (HPP), pulsed electric fields (PEFs), and ultraviolet-based treatments, are reviewed for their effectiveness in improving microbial safety and extending shelf life while maintaining nutritional quality. The integration of omics technologies (proteomics, metabolomics, and lipidomics) provides deeper molecular insights into product quality, authenticity, and traceability within blue food supply chains. Collectively, these interdisciplinary advancements demonstrate strong potential to transform blue food production into a more resilient, sustainable, and technology-driven sector. Future progress will depend on overcoming challenges related to scalability, regulatory frameworks, and consumer acceptance to enable the successful commercialization of next-generation blue food products. Full article
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53 pages, 4246 KB  
Review
Advances in Natural Product Extraction: Established and Emerging Technologies
by Carsyn R. Travis, Jared McMaster and Fatima Rivas
Molecules 2026, 31(7), 1136; https://doi.org/10.3390/molecules31071136 - 30 Mar 2026
Cited by 1 | Viewed by 2707
Abstract
Natural product research has experienced substantial growth over the past two decades, driven by a renewed appreciation for the structural complexity and biological relevance of compounds derived from nature. Technological advances in separation science, spectroscopic characterization, and high-sensitivity bioassays have collectively restored natural [...] Read more.
Natural product research has experienced substantial growth over the past two decades, driven by a renewed appreciation for the structural complexity and biological relevance of compounds derived from nature. Technological advances in separation science, spectroscopic characterization, and high-sensitivity bioassays have collectively restored natural products to a position of prominence in modern drug discovery efforts. Nature remains the most prolific source of bioactive molecular diversity, drawing from microorganisms, plants, and marine life to offer a vast reservoir of structurally novel scaffolds whose pharmacological potential remains largely unexplored. Effective extraction and isolation remain foundational to natural product research, as the quality and purity of isolated compounds directly govern the reliability of downstream biological evaluation. Recent years have witnessed remarkable innovation in this space, spanning green and designer solvent systems, pressurized and ultrasound-assisted extraction platforms, supercritical fluid techniques, and integrated purification workflows that dramatically reduce processing time while improving compound recovery and analytical throughput. Particularly noteworthy is the growing application of artificial intelligence and machine learning tools for solvent selection, extraction optimization, and metabolite dereplication, which in combination with advanced phase-separation strategies and informatic platforms have substantially expanded the scope of detectable and characterizable metabolites within complex biological matrices. This review summarizes recent progress in extraction and isolation methodologies supporting natural product research, with particular emphasis on combinatorial extraction strategies, next-generation solvent systems, and AI-driven applications that have collectively improved operational efficiency, selectivity, and analytical output over the past five years. Full article
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18 pages, 1108 KB  
Review
Marine-Derived Defenses Against HIV: Emerging Bioactive Molecules from the Seas
by Tiago Santos, Ana Pintão, Carolina S. Marques and Pedro Brandão
Mar. Drugs 2026, 24(2), 70; https://doi.org/10.3390/md24020070 - 7 Feb 2026
Cited by 1 | Viewed by 1720
Abstract
Marine ecosystems have yielded a remarkable diversity of bioactive metabolites with relevance for antiviral drug discovery. This article reviews recent advances in marine-derived compounds investigated as anti-HIV agents. Metabolites, such as sulfated polysaccharides, lectins, alkaloids, and terpenoids, display inhibitory activity across multiple stages [...] Read more.
Marine ecosystems have yielded a remarkable diversity of bioactive metabolites with relevance for antiviral drug discovery. This article reviews recent advances in marine-derived compounds investigated as anti-HIV agents. Metabolites, such as sulfated polysaccharides, lectins, alkaloids, and terpenoids, display inhibitory activity across multiple stages of the HIV life cycle, including viral entry, reverse transcription, integration, and maturation. From sponge-inspired development of AZT to the application of Griffithin in clinical trials for the prophylaxis of the HIV infection, recent discoveries showcase the chemical diversity of marine ecosystems and validate their utility as hit and compound sources in drug discovery. We highlight possible mechanisms of action, as well as translational hurdles from research to clinical trials. Overall, marine biodiversity represents a valuable and underexploited reservoir for the development of novel HIV therapeutics. Full article
(This article belongs to the Section Marine Pharmacology)
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21 pages, 829 KB  
Review
The Beneficial Effects of Marine Plant-Derived Compounds on the Musculoskeletal System
by László Szabó, Áron Gere, Zsigmond Máté Kovács, Tamás Bazsó and Beatrix Dienes
Int. J. Mol. Sci. 2026, 27(2), 1032; https://doi.org/10.3390/ijms27021032 - 20 Jan 2026
Viewed by 926
Abstract
The skeletal muscle system is particularly susceptible to degenerative and inflammatory processes that threaten mobility, quality of life, and systemic health. Marine plants, including brown, red, and green algae, are valuable yet understudied sources of bioactive compounds with therapeutic potential against skeletal muscle [...] Read more.
The skeletal muscle system is particularly susceptible to degenerative and inflammatory processes that threaten mobility, quality of life, and systemic health. Marine plants, including brown, red, and green algae, are valuable yet understudied sources of bioactive compounds with therapeutic potential against skeletal muscle inflammation and degeneration. This narrative review provides the first overview of polyphenols, polysaccharides, carotenoids, and multiminerals derived from marine plants, with a particular focus on their effects on skeletal muscle, bone, and joint tissues. It highlights both the therapeutic potential and the limitations of marine plant-derived bioactive compounds in the musculoskeletal system. The compounds discussed, such as phlorotannins, ulvan, fucoidan, carotenoids, spirulina derivatives, and Aquamin, modulate key signaling pathways, including NF-κB, JAK/STAT3, and the NLRP3 inflammasome. Among these, MAPK emerges as the most consistently affected axis across all compound classes, leading to a reduction in TNF-α, IL-1β, IL-6, and oxidative stress markers. These bioactive compounds have been shown in both in vitro and in vivo models to reduce muscle catabolism, enhance osteoblast differentiation and mineralization, and reduce cartilage inflammation. Despite favorable safety, biocompatibility, and biodegradability profiles, current evidence shows that systemic applications significantly dominate over local delivery, highlighting the untapped potential of localized delivery strategies. Overall, this narrative review underscores the growing importance of marine plant-derived bioactives as promising natural agents for maintaining musculoskeletal integrity and alleviating degenerative disorders. Full article
(This article belongs to the Section Bioactives and Nutraceuticals)
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26 pages, 2985 KB  
Review
Marine Derived Natural Products: Emerging Therapeutics Against Herpes Simplex Virus Infection
by Vaibhav Tiwari, James Elste, Chunyu Wang and Fuming Zhang
Biomolecules 2026, 16(1), 100; https://doi.org/10.3390/biom16010100 - 7 Jan 2026
Cited by 1 | Viewed by 1501
Abstract
Herpes simplex viruses (HSV-1 and HSV-2) are highly prevalent human pathogens that establish lifelong latency in sensory neurons, posing a persistent challenge to global public health. Their clinical manifestations range from mild, self-limiting orolabial lesions to severe, life-threatening conditions such as disseminated neonatal [...] Read more.
Herpes simplex viruses (HSV-1 and HSV-2) are highly prevalent human pathogens that establish lifelong latency in sensory neurons, posing a persistent challenge to global public health. Their clinical manifestations range from mild, self-limiting orolabial lesions to severe, life-threatening conditions such as disseminated neonatal infections, focal encephalitis, and herpetic stromal keratitis, which can lead to irreversible corneal blindness. Beyond direct pathology, HSV-mediated genital ulcerative disease (GUD) significantly enhances mucosal susceptibility to HIV-1 and other sexually transmitted infections, amplifying co-infection risk and disease burden. Despite decades of clinical reliance on nucleoside analogues such as acyclovir, the therapeutic landscape has stagnated with rising antiviral resistance, toxicity associated with prolonged use, and the complete inability of current drugs to eliminate latency or prevent reactivation continue to undermine effective disease control. These persistent gaps underscore an urgent need for next-generation antivirals that operate through fundamentally new mechanisms. Marine ecosystems, the planet’s most chemically diverse environments, are providing an expanding repertoire of antiviral compounds with significant therapeutic promise. Recent discoveries reveal that marine-derived polysaccharides, sulfated glycans, peptides, alkaloids, and microbial metabolites exhibit remarkably potent and multi-targeted anti-HSV activities, disrupting viral attachment, fusion, replication, and egress, while also reshaping host antiviral immunity. Together, these agents showcase mechanisms and scaffolds entirely distinct from existing therapeutics. This review integrates emerging evidence on structural diversity, mechanistic breadth, and translational promise of marine natural products with anti-HSV activity. Collectively, these advances position marine-derived compounds as powerful, untapped scaffolds capable of reshaping the future of HSV therapeutics. Full article
(This article belongs to the Topic Natural Products and Drug Discovery—2nd Edition)
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26 pages, 1160 KB  
Article
Identifying the Importance of Key Performance Indicators for Enhanced Maritime Decision-Making to Avoid Navigational Accidents
by Antanas Markauskas and Vytautas Paulauskas
J. Mar. Sci. Eng. 2026, 14(1), 105; https://doi.org/10.3390/jmse14010105 - 5 Jan 2026
Viewed by 1487
Abstract
Despite ongoing advances in maritime safety research, ship accidents persist, with significant consequences for human life, marine ecosystems, and port operations. Because many accidents occur in or near ports, assessing a vessel’s ability to enter or depart safely remains critical. Although ports apply [...] Read more.
Despite ongoing advances in maritime safety research, ship accidents persist, with significant consequences for human life, marine ecosystems, and port operations. Because many accidents occur in or near ports, assessing a vessel’s ability to enter or depart safely remains critical. Although ports apply local navigational rules, safety criteria could be strengthened by adopting more adaptive and data-informed approaches. This study presents a mathematical framework that links Key Performance Indicators (KPIs) to a Ship Risk Profile (SRP) for collision/contact/grounding risk indication. Expert-based KPI importance weights were derived using the Average Rank Transformation into Weight method in linear (ARTIW-L) and nonlinear (ARTIW-N) forms and aggregated into a nominal SRP. Using routinely monitored KPIs largely drawn from the Baltic and International Maritime Council and Port State Control/flag-related measures, the results indicate that critical equipment and systems failures and human/organisational factors—particularly occupational health and safety and human resource management deficiencies—are the most influential contributors to the normalised accident-risk index. The proposed framework provides port authorities and maritime stakeholders with an interpretable basis for more proactive risk-informed decision-making and targeted safety improvements. Full article
(This article belongs to the Special Issue Advancements in Maritime Safety and Risk Assessment)
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14 pages, 2493 KB  
Article
Seagrass-Derived Cellulose/Collagen Composite Coating for Enhanced Tomato Shelf Life and Postharvest Quality
by Senthilkumar Palanisamy, Kokila Saravanan, Jishna Jabbar, Rahul Jacob Michael, Barani Kumar Saravana Kumar, Jintae Lee and Devaraj Bharathi
Polymers 2026, 18(1), 76; https://doi.org/10.3390/polym18010076 - 26 Dec 2025
Viewed by 1079
Abstract
This study explored an eco-friendly coating system combining seagrass-derived cellulose fiber (SCF) from Cymodocea rotundata with marine type I collagen (MC) for tomato preservation. The SCF/MC composite was prepared through enzymatic and natural crosslinking processes and subsequently characterized using X-ray diffraction (XRD), Fourier [...] Read more.
This study explored an eco-friendly coating system combining seagrass-derived cellulose fiber (SCF) from Cymodocea rotundata with marine type I collagen (MC) for tomato preservation. The SCF/MC composite was prepared through enzymatic and natural crosslinking processes and subsequently characterized using X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), field emission scanning electron microscopy (FESEM), and thermogravimetric analysis (TGA). The results demonstrated that SCF/MC possessed a compact morphology, strong hydrogen bonding interactions, high crystallinity, and excellent thermal stability. When applied as a coating, SCF/MC composite significantly reduced weight loss in tomatoes, preserved firmness (>39 Units), regulated acidity, maintained moisture levels (~90%), and delayed increase in pH compared to the uncoated control. Additionally, the SCF/MC coating sustained ascorbic acid and moderated lycopene accumulation, indicating delayed ripening. At 0.5% of SCF/MC composite, spoilage was limited to 22% versus ~80% in control samples, demonstrating a substantial reduction in decay. Antifungal assay showed strong inhibition of Aspergillus flavus, with the highest suppression of mycelial growth observed at 0.5% of SCF/MC. Overall, the SCF/MC coating effectively enhanced fungal safety and maintained the physicochemical quality of tomatoes, thereby extending shelf life while valorizing seagrass biomass as a sustainable postharvest resource. Full article
(This article belongs to the Special Issue Biodegradable and Biobased Polymers for Sustainable Food Applications)
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