Soft Coral Research Articles

Mitochondrial DNA damage, repair and copy number dynamics of Sclerophytum sp. (Anthozoa: Octocorallia) in response to short-term abiotic oxidative stress

As a consequence of global climate change, the increasing frequency of environmental disturbances and surplus oxidative stress experienced by coral reefs will likely contribute to phase shifts from stony to soft corals. Mitochondrial response to reactive oxygen species (ROS) -induced oxidative damage appears pivotal for bioenergetic adaptation and recovery during environmental stress, partly governed by mitochondrial DNA copy number. Unlike other animals, octocorals possess unique mitogenomes with an intrinsic DNA mismatch repair gene, the mtMutS, that is likely to have a role in mitochondrial response and mtDNA damage recovery. Yet, there is a general lack of stress response studies on octocorals from a mitochondrial perspective. Here we evaluate the mitochondrial response of the octocoral Sclerophytum sp. subjected to acute elevated temperature and low pH, and its putative competence to reverse oxidative mtDNA damage caused by exogenous agents like hydrogen peroxide (H2O2). Temporal changes in mtDNA copy number and mtDNA damage and recovery were monitored. Both short-term thermal and low pH stress applied independently instigated mtDNA damage and affected mtDNA copy number differently, while mtMutS gene was significantly upregulated during low pH stress. mtDNA damage caused by H2O2 insult was observed to be promptly reversed in Sclerophytum sp., and a higher mtDNA copy number was associated with lower mtDNA damage. These findings provide insights into the potential role of mtMutS gene in conferring resilience to octocorals, the relevance of mtDNA copy number, and emphasize the importance of better understanding the mitochondrial stress response of cnidarians in the context of climate change.

Inhibition of Soluble Epoxide Hydrolase by Cembranoid Diterpenes from Soft Coral Sinularia maxima: Enzyme Kinetics, Molecular Docking, and Molecular Dynamics.

Soluble epoxide hydrolase (sEH) is essential for converting epoxy fatty acids, such as epoxyeicosatrienoic acids (EETs), into their dihydroxy forms. EETs play a crucial role in regulating blood pressure, mediating anti-inflammatory responses, and modulating pain, making sEH a key target for therapeutic interventions. Current research is increasingly focused on identifying sEH inhibitors from natural sources, particularly marine environments, which are rich in bioactive compounds due to their unique metabolic adaptations. In this study, the sEH inhibitory activities of ten cembranoid diterpenes (1-10) isolated from the soft coral Sinularia maxima were evaluated. Among them, compounds 3 and 9 exhibited considerable sEH inhibition, with IC50 values of 70.68 μM and 78.83 μM, respectively. Enzyme kinetics analysis revealed that these two active compounds inhibit sEH through a non-competitive mode. Additionally, in silico approaches, including molecular docking and molecular dynamics simulations, confirmed their stability and interactions with sEH, highlighting their potential as natural therapeutic agents for managing cardiovascular and inflammatory diseases.

Northern coral triangle coral ciliates diseases and disease prevention: A first record

This study is the first to report ciliate infection on soft corals in the Northern Coral Triangle. Infected Briareum violacea will undergo tissue ulceration and death within a short period of time. This ciliate was identified as Scuticociliatia sp. through 18S rRNA gene identification. In this study, the body length of the ciliate was approximately 80–85 μm before parasitizing the B. violacea. After being parasitizing, the body length was approximately 200–250 μm, and the body width was 50 μm. Body size increased three times after parasitism. According to observations, ciliates will first parasitize the coral endoderm in the early stage of infection, and no ciliates were found in the ectoderm. Preliminary judgment suggests that it may invade the coral endoderm through the mouth for parasitism. After parasitism, the ciliate eats the coral tissue and zooxanthellae. The antioxidant enzymes SOD, CAT, and MDA of infected corals were significantly increased, which also means that the corals are in a stress response. Ciliates will eat the zooxanthellae in the coral body, resulting in a significant reduction in the number of zooxanthellae and chlorophyll a. To effectively prevent and treat this disease, Combretum indicum extract was used in this study. It is a tropical plant commonly used medicinally to treat roundworms, pinworms and parasitic diseases. The results showed that at a concentration of 1500–2500 ppm, Combretum indicum extract can be used to treat ciliates and can applied via medicinal bath therapy for long periods without causing coral stress reactions. The results of this study regarding coral disease prevention are in line with SDG 14 and promote the practical application of coral reef ecological sustainability and large-scale coral aquaculture.

Total Synthesis of (15R)- and (15S)-Prostaglandin A2.

From both pharmaceutical and structural perspectives, the large family of prostaglandins represent a truly remarkable class of natural products. Prostaglandin A2 is a tissue hormone naturally found in human seminal plasma and in the sea whip Plexaura homomalla with yet poorly understood biological or therapeutic effects. Herein, a novel strategy for the stereoselective construction of both naturally occurring prostaglandin A2 epimers and first insights into their functional effects on the major inhibitory neurotransmitter γ-aminobutyric acid (GABA) type A receptors (GABAAR) are provided. The synthesis of both epimers was achieved in only 11 steps starting from commercially available 2,5-dimethoxy-tetrahydrofuran employing an organocatalytic domino-aldol reaction, a Mizoroki-Heck reaction, a Wittig reaction as well as an oxidation-decarboxylation sequence. The (15R)-epimer significantly reduced GABA-induced currents through GABAA receptors while its (15S)-epimer did not show any significant effect. These data suggest that (15R)-PGA2 might serve as a novel scaffold for the development of selective GABAA receptor modulators.

Diversity of fatty acids in different coral species collected in the coastal sea of Nha Trang, Khanh Hoa

The total of 15 coral samples belonging to soft coral species Sinularia flexibilis, hard coral Acropora sp., and the hydrocoral Millepora platypylla, were collected in the coastal sea of Nha Trang, Khanh Hoa, Vietnam. In these samples, 39 fatty acids were identified in which Sinularia flexibilis sample identified 26 fatty acids, Acropora sp. identified 27 fatty acids, and Millepora platyphylla has the most diverse fatty acid composition with 35 fatty acids. In the coral samples of S. flexibilis, the difference between the ratio of total saturated fatty acids and the polyunsaturated fatty acids was much smaller than that of the other two species. The n-3/n-6 ratio is the highest among Millepora species, up to 4.45; in S. flexibilis and Acropora, this ratio can be lower than 1. Fatty acids 16:0 and 18:0 are the two main fatty acids in total; the content varies between samples of different species but is quite similar amongst samples of the same species. Fatty acids characterized by symbiotic microalgae 16:2n-7, 18:3n-6, 18:4n-3 Fatty acids 18:3n-6 were absent in S. flexibilis samples, minor content in M. platyphylla samples, and relatively significant in Acropora sp. (from 7.07% to 9.59% total fatty acids). Two fatty acids 16:2n-7 and 18:4n-3 were present in all 3 species, the highest in the sample S. flexibilis. The tetracosapolyenoic fatty acids 24:5n-6 and 24:6n-3 are soft coral marker fatty acids, present in only 5 samples of S. flexibilis with 24:5n-6 content ranging from 2.56% to 5.58% total fatty acids, 24:6n-3 is much lower (0.24% to 0.76%). The two PUFAs with the highest concentration were 20:4n-6 and 22:6n-3. 20:4n-6 was present in the total fatty acids of S. flexibilis with a quite high content (9.76% to 17.12% of the total axb), in contrast, the proportion was very low in five Millepora samples and five Acropora samples. 22:6n-3 was significantly high in the five Millepora samples (12.63% to 25.29% total fatty acids) and minor in the samples of the other two species.

Biosynthesis of lanthanum oxide-cerium phosphate as luminescent materials using a marine soft coral for cytotoxic, photocatalytic and photometric applications

Researchers created a single-step biosynthetic method using marine soft coral to produce La2O3–CePO4 (LCP) nanocomposites. The structure and phase transitions of the nanocomposites were verified, and various potential applications were investigated. The UV-DRS study peaks supported the evidence of La2O3–CePO4 formation. Analysis using FT-IR spectroscopy showed the La–O bonds and PO43− bands. The XRD analysis revealed the presence of the hexagonal phase of La2O3 and the monoclinic CePO4 phases. The average particle size of La2O3–CePO4 nanocomposites was 25.81 nm. Absorption spectroscopy indicates that the La2O3–CePO4 nanocomposites interact with the DNA groove. Under UV light exposure, a degradation efficiency of 90.12 % was achieved for alizarin yellow within 100 min at a pH of 4. The rate constant of 0.0151 min−1 confirmed the photocatalytic capabilities of the material. Their compatibility with living organisms was evaluated using the MTT assay, while their luminescence properties were examined closely. These result paves a way for manufacturing innovation.

Polyoxygenated cembrane-type diterpenes from the Hainan soft coral Lobophytum crassum as a promising source of anticancer agents with ErbB3 and ROR1 inhibitory potential.

A detailed chemical investigation of the Hainan soft coral Lobophytum crassum led to the identification of a class of polyoxygenated cembrane-type macrocyclic diterpenes (1-28), including three new flexible cembranoids, lobophycrasins E-G (2-4), and twenty-five known analogues. Their structures were elucidated by combining extensive spectroscopic data analysis, quantum mechanical-nuclear magnetic resonance (QM-NMR) methods, the modified Mosher's method, X-ray diffraction analysis, and comparison with data reported in the literature. Bioassays revealed that sixteen cembranoids inhibited the proliferation of H1975, MDA-MB231, A549, and H1299 cells. Among them, Compounds 10, 17, and 20 exhibited significant antiproliferative activities with IC50 values of 1.92-8.82 μM, which are very similar to that of the positive control doxorubicin. Molecular mechanistic studies showed that the antitumour activity of Compound 10 was closely related to regulation of the ROR1 and ErbB3 signalling pathways. This study may provide insight into the discovery and utilization of marine macrocyclic cembranoids as lead compounds for anticancer drugs.

Dynamic antifouling strategies of soft corals: Disrupting the flow field by tentacles

As permanently attached organism, soft corals can prevent fouling organisms from attaching to them through its anti-fouling mechanisms. In this paper, the antifouling mechanism of soft coral tentacles was revealed through the combination of numerical simulation and laboratory experiment. The results indicated that the interaction between tentacle structures and fluid medium affects the distribution and adhesion of bacteria. At the microscopic level, the boundary layer of low normal flow velocity forms a "water film" near the tentacles, preventing bacteria from approaching the tentacle surface. From the macro perspective, coral tentacles can disrupt the flow field through vortex streets, disrupt water flow stability, and make it difficult for bacteria to attach. The new discovery of bacterial movement and attachment behavior in the flow around a circular cylinder provides theoretical guidance for the design of antifouling surfaces.

Anti-HBV Activities of Cembranoids from the South China Sea Soft Coral Sinularia pedunculata and Their Structure Activity Relationship.

Hepatitis B Virus (HBV) infection is a global public health challenge that seriously endangers human health. Soft coral, as a major source of terpenoids, contains many structurally novel and highly bioactive compounds. Sixteen cembranoids (1-16), including a new one named sinupedunol B (16), were isolated from the South China Sea Soft coral Sinularia pedunculata. The structure of the sinupedunol B (16) was determined through a combination of spectroscopic analysis and X-ray single-crystal diffraction. In this study, cembranoids isolated from Sinularia pedunculata were found of anti-HBV activity for the first time. Among them, flexilarin D (6) showed significant anti-HBV activity with an IC50 value of 5.57 μM without cytotoxicity. We then analyzed the structure-activity relationship (SAR). Furthermore, it is demonstrated that flexilarin D (6) can accelerate the formation of capsid, inhibit HBeAg, HBV core particle DNA, HBV total RNA and pregenomic RNA in a dose dependent manner. We also confirmed the anti-HBV activity of 6 in HepG2-NTCP infection system. Finally, we demonstrated the anti-HBV mechanism of these compounds by inhibiting the ENI/Xp enhancer/promoter.

Complex coral reefs offer hope for management in a Marine Protected Area in Zanzibar

Management of Marine Protected Areas can be supported by a detailed understanding of ecosystem state. We assessed coral reefs within Pemba Channel Conservation Area in 2019 and evaluated changes over the previous decade. In 2019, hard coral cover ranged from 3.5 % to 58.4 % across sites, while coral recruitment was exceptionally high in places (14 recruits/m2). The highest total fish biomass was ∼ 500 kg/ha, which is low compared to forereefs elsewhere in the Western Indian Ocean. Between 2009 and 2019, benthic substrate shifted to higher soft coral and turf algae cover, and mean fish density significantly decreased. This suggests that overfishing is a major threat and some reefs will require restoration to facilitate recovery. However, Pemba's unique geomorphology might offer refuge for corals from future warming and habitat for large, endangered fishes such as groupers. This could elevate the global significance of Pemba's reefs and should motivate investment in management and conservation of these resources.

The First Discovery of Marine Polyoxygenated Cembranolides as Potential Agents for the Treatment of Ulcerative Colitis.

Cembranolides are characteristic metabolites in marine soft corals, with complex structures and widespread biological activities. However, seldom has an intensive pharmacological study been done for these intriguing marine natural products. In this work, systematic chemical investigation was performed on Sinularia pedunculata by HSQC-based small molecule accurate recognition technology (SMART), resulting in the isolation and identification of 31 cembrane-type diterpenoids, including six new ones. In the bioassay, several compounds showed significant anti-inflammatory activities on the inhibition of NO production. The structure-activity relationship (SAR) was comprehensively analyzed, and two most bioactive and less toxic compounds 8 and 9 could inhibit inflammation through suppressing NF-κB and MAPK signaling pathways, and reduce the secretion of inflammatory cytokines. In a mouse model of dextran sodium sulfate (DSS)-induced acute colitis, 8 and 9 exhibited good anti-inflammatory effects and the ability to repair the colon epithelium, giving insight into the application of cembranolides as potential ulcerative colitis (UC) agents.

Network analyses on photographic surveys reveal that invertebrate predators do not structure epibenthos in the deep (~2000m) rocky Powell Basin, Weddell Sea, Antarctica

Predator-prey interactions in marine ecosystems control population sizes, maintain species richness, and provide intermediate disturbance. Such ecosystem structuring interactions may be rare in Antarctic epibenthic communities, which are unique among marine ecosystems worldwide for their dominance of soft bodied fauna (sponges, soft and hard corals, and echinoderms) and a simultaneous paucity of shell crushing predators (sharks, rays and durophagous decapods). In the shallow benthos, instead of durophagy, important Antarctic predators such as starfish, pycnogonids (sea spiders), nemertean worms, and nudibranchs employ grazing, scavenging, or sucking strategies. Far less is known about deep sea (>1000 m) Antarctic benthic communities due to the challenging nature of polar data collection, so that photographic surveys provide one of the only means of making in situ observations of these deep sea communities. We used seabed photographs of the deep (~2000m) slope of the Powell Basin, northwest Weddell Sea, taken by the Ocean Floor Observation and Bathymetry System on board the RV Polarstern (PS118, April 2019) to investigate the epibenthic community composition, and Bayesian Network Inference (BNI) to determine the ecological network, namely the ecological associations, including potential invertebrate predator-prey relationships between taxa. Photographs show that the rocky substrates of the basin slope support between 10-22 morphotaxa per photo, and highly abundant communities (density between 106 to 553 individuals/m2). BNI results reveal a network of associations between the sessile and mobile suspension and filter feeding organisms and their physical environment. However, associations between invertebrate predators like starfish, and other organisms, were not detected in the network. This lack of inclusion within the network suggests that, despite the presence of these normally important mobile predators, invertebrate predator-prey interactions on the rocky Powell Basin slope do not have the same ecosystem-regulating impact that they do on shallow Antarctic epibenthic communities.

A dramatic northward range expansion of a Red Sea soft coral in the Mediterranean Sea

AbstractHistorically isolated from tropical influences, the Mediterranean Sea underwent drastic changes, including the Lessepsian migration facilitated by the opening of the Suez Canal, connecting the Red Sea to the Mediterranean Sea. Here, we report on the discovery of a thriving and lush population of an Indo‐Pacific soft coral in the transforming Mediterranean Sea. This species was identified as Dendronephthya hemprichi (Klunzinger, 1877) through morphological and genetic assessments. The unexpected appearance of a dense population of this tropical coral off the Israeli Mediterranean coast signifies a northward range expansion of approximately 350 km from the northern Red Sea. Considering the potential for this soft coral to alter benthic community structure and create new marine animal forests, the population's sudden and massive colonization of artificial structures raises intriguing questions about its possible long‐term ecological implications in the Mediterranean ecosystem. This study emphasizes the urgency of continuous monitoring and research to understand the ecological consequences of this unprecedented abrupt tropical incursion of hundreds of colonies and its potential implications for the region's biodiversity. Moreover, the findings contribute to the broader discourse on the tropicalization of temperate and subtropical regions, highlighting the need to adapt conservation strategies that embrace and understand novel configurations of ecosystems in the face of ongoing local and global changes.

Comparative biochemical analysis of full-length and truncated BaqA α-amylases from Bacillus aquimaris MKSC 6.2

BaqA is a raw starch degrading α-amylase produced by the marine bacterium Bacillus aquimaris MKSC 6.2, associated with soft corals. This α-amylase belongs to a new subfamily Glycoside Hydrolases (GH) 13_45 which has several unique characteristics, namely, a pair of tryptophan residues Trp201 and Trp202, a distinct LPDIx signature in the Conserved Sequence Region-V (CSR-V), and an elongated C-terminus containing five aromatic residues. The research aims to investigate physicochemical, kinetics, and biochemical properties of BaqA. In this study, the full-length enzyme (BaqA) and a truncated form of BaqA (designated as BaqAΔC), lacking the C-terminal 34 amino acids were constructed and expressed in Escherichia coli ArcticExpress (DE3). BaqA formed inclusion bodies, while BaqAΔC was produced as a soluble protein. Purified and refolded BaqA exhibited a catalytic efficiency (kcat/Km) of 53.1 ± 6.3 mL mg−1 s−1 at 40 °C and pH 7.5, whereas the purified BaqAΔC displayed kcat/Km of 11.4 ± 1.3 mL mg−1 s−1 under the optimum condition of 50 °C and pH 6.5. Moreover, BaqAΔC showed a slight reduction in the binding affinity towards sago granules. Interestingly, BaqAΔC displayed robust stability and halotolerant properties compared to BaqA. BaqAΔC maintained 50 % amylolytic activity for up to 6 h, whereas BaqA lost over 50 % of its activity within 90 min. Furthermore, BaqAΔC showed a remarkable increase in amylolytic activity upon the addition of NaCl, with an optimum concentration of 0.5 M. Even at a high salt concentration (1.5 M NaCl), BaqAΔC retained over 50 % of its residual activity. Taken together, its solubility, amylolytic activity, stability, ability to degrade raw starch, and moderate halotolerance make BaqAΔC a promising candidate for various starch processing industries.

Red Sea Coral Reef Monitoring Site in Sudan after 39 Years Reveals Stagnant Reef Growth, Continuity and Change

Coral reefs off the coast of the Republic of Sudan are still considered to be among the most pristine reefs in the central Red Sea. The complex coastal fringing reefs, offshore banks, and shoals of Dungonab Bay in the north and Sanganeb atoll situated further to the south, about 23 km off the Sudanese mainland coast, were inscribed on the UNESCO World Heritage List in 2016. Due to their remote location and limited access, monitoring of the status of the reefs has been sporadic. Here, we present the results of a repeated large area photomosaic survey (5 m × 5 m plots) on the Sanganeb atoll, first established and surveyed in 1980, and revisited in 1991 and most recently in 2019. The 2019 survey recovered and reinstated the four original monitoring plots. Evaluation of photographic and video records from one photomosaic plot on the seaward slope of the atoll revealed general continuity of the overall community structure and composition over 39 years. Individual colonies of Echinopora gemmacea and Lobophyllia erythraea were recorded in the exact same positions as in the 1980 and 1991 plots. The genera Acropora and Pocillopora remain dominant, although in altered proportions. Shifts in composition were detected at the species level (e.g., increase in Pocillopora verrucosa, Stylophora pistillata, Acropora hemprichii, Dipsastraea pallida, and Echinopora gemmacea, decrease in Acropora cytherea and A. superba), in addition to changes in the extent of uncolonized substrate (e.g., increase from 43.9% in 1980 to 52.2% in 2019), and other scleractinian, hydrozoan, and soft coral living cover. While the temporal resolution only includes three sampling events over 39 years (1980, 1991, 2019), this study presents one of the longest time series of benthic community surveys available for the entire Red Sea. A semi-quantitative estimate of vertical reef growth in the studied test plot indicates a reduction in net accretion rates of more than 80%, from 2.27 to 2.72 cm/yr between 1980 and 1991 to 0.28–0.42 cm/yr between 1991 and 2019. We carefully conclude that the changes observed in the coral community in the plot in 2019 (Acropora–Pocillopora shift, increase in Montipora and calcareous algae) are representative of impacts at the community level, including rising sea surface temperatures and recent bleaching events.

Biodiversity, Distribution and Functional Differences of Fungi in Four Species of Corals from the South China Sea, Elucidated by High-Throughput Sequencing Technology.

Recent studies have predominantly spotlighted bacterial diversity within coral microbiomes, leaving coral-associated fungi in the shadows of scientific inquiry. This study endeavors to fill this knowledge gap by delving into the biodiversity, distribution and functional differences of fungi associated with soft corals Cladiella krempfi and Sarcophyton tortuosum, gorgonian coral Dichotella gemmacea and stony coral Favia speciosa from the South China Sea. Leveraging high-throughput sequencing of fungal internal transcribed spacer-1 (ITS1) region of the rRNA gene, a total of 431 fungal amplicon sequence variants (ASVs) were identified in this study, which indicated that a large number of fungal communities were harbored in the South China Sea corals. Noteworthy among our findings is that 10 fungal genera are reported for the first time in corals, with Candolleomyces, Exophiala, Fomitopsis, Inaequalispora, Kneiffiella, Paraphaeosphaeria, and Yamadazyma belonging to the Ascomycota, and Cystobasidium, Psathyrella, and Solicoccozyma to the Basidiomycota. Moreover, significant differences (p < 0.05) of fungal communities were observed among the various coral species. In particular, the gorgonian coral D. gemmacea emerged as a veritable haven for fungal diversity, boasting 307 unique ASVs. Contrastingly, soft corals S. tortuosum and C. krempfi exhibited modest fungal diversity, with 36 and 21 unique ASVs, respectively, while the stony coral F. speciosa hosted a comparatively sparse fungal community, with merely 10 unique ASVs in total. These findings not only provide basic data on fungal diversity and function in the South China Sea corals, but also underscore the imperative of nuanced conservation and management strategies for coral reef ecosystems worldwide.

Network pharmacology, molecular docking study, and in vivo validation of the wound healing activity of the Red Sea soft coral Paralemnalia thyrsoides (Ehrenberg 1834) ethanolic extract and bioactive metabolites

BackgroundWounds are a major health issue on a global scale, putting a great deal of financial, commercial, and social strain on healthcare organizations, patients, and individuals. So, this study aims to investigate the in vitro antioxidant activity of Paralemnalia thyrsoides soft coral total ethanolic extract. Also, bio-guided in vivo wound healing validation enhanced by the evaluation of related gene expression of Paralemnalia thyrsoides total extract, derived fractions, and three known metabolites was done. Furthermore, utilizing network pharmacology, we identified ten hub target genes associated with wound healing, including AKT1(RAC-alpha serine/threonine–protein kinase), IL6 (interleukin-6), MAPK3 (mitogen-activated protein kinase 3), MMP9 (matrix metalloproteinase 9), and APP (amyloid P protein precursor). We conducted molecular docking to assess how the three compounds interact with these hub genes and inflammatory cytokines (IL-1β (interleukin-1 beta), TGF-β (transforming growth factor-beta), TNF-α (tumor necrosis factor-alpha), and NF-KB (nuclear factor-kappa B) linked to wound healing.ResultsIn vitro antioxidant activity of the total ethanolic extract of Paralemnalia thyrsoides revealed potent scavenging activity against H2O2 with IC50 of 178.62 μg/mL. Additionally, the bio-guided scheme of the in vivo wound healing assay leads to the most active fraction, petroleum ether, with a healing percentage of 85% ± 4. Several chromatographic procedures upon petroleum ether fraction led to the isolation of three known compounds with significant in vivo wound healing potential which are recognized as triacontan-1-ol (1), 24-methylcholesterol (2) 6α-acetyl-7α-acetate-1(10)-α-13-nornardosine [C16H24O4] (3). Noteworthy downregulation in Cox-2 (Cyclooxygenase-2), Cox-1 (Cyclooxygenase-1), IL-1β, TGF-β, TNF-α, NF-KB, and INF-ϒ (interferon-ϒ) relative genes expression and upregulation in TGF-β, and IL-10 (interleukin-10) relative genes expression proved that compounds (3), (2), and (1) were, respectively, significant. The in silico study suggests that both C16H24O4 and 24-methyl cholesterol have potential in wound healing, possibly involving the regulation of RAC-alpha serine/threonine-protein kinase (AKT1).ConclusionOur study highlights the antioxidant and wound-healing potential of Paralemnalia thyrsoides soft coral that can be attributed to its diverse chemical metabolites. The in vivo and in silico findings highlighted that P. thyrsoides can be an effective remedy for wound restoration with the need for extensive future detailed clinical studies to prove these results.

Naturally Occurring Norsteroids and Their Design and Pharmaceutical Application.

The main focus of this review is to introduce readers to the fascinating class of lipid molecules known as norsteroids, exploring their distribution across various biotopes and their biological activities. The review provides an in-depth analysis of various modified steroids, including A, B, C, and D-norsteroids, each characterized by distinct structural alterations. These modifications, which range from the removal of specific methyl groups to changes in the steroid core, result in unique molecular architectures that significantly impact their biological activity and therapeutic potential. The discussion on A, B, C, and D-norsteroids sheds light on their unique configurations and how these structural modifications influence their pharmacological properties. The review also presents examples from natural sources that produce a diverse array of steroids with distinct structures, including the aforementioned A, B, C, and D-nor variants. These compounds are sourced from marine organisms like sponges, soft corals, and starfish, as well as terrestrial entities such as plants, fungi, and bacteria. The exploration of these steroids encompasses their biosynthesis, ecological significance, and potential medical applications, highlighting a crucial area of interest in pharmacology and natural product chemistry. The review emphasizes the importance of researching these steroids for drug development, particularly in addressing diseases where conventional medications are inadequate or for conditions lacking sufficient therapeutic options. Examples of norsteroid synthesis are provided to illustrate the practical applications of this research.

Early-life history of three soft coral species in Okinawa, Japan

ABSTRACT Larval development and subsequent settlement behaviour are important aspects which determine the persistence of sessile benthic organisms on shallow water tropical and subtropical coral reefs. However, only limited studies have been performed on the early-life histories of soft corals in Okinawa, Japan. In this study, we describe the development and settlement pattern of collected spawn materials from two Sclerophytum species and the larvae of a brooding Heteroxenia sp. from Okinawa Island, Japan. Results showed that for the brooding Heteroxenia sp., planulae can metamorphose and fuse at the pelagic stage, and have very low settlement rates on rubble substrates with crustose coralline algae (CCA). On the other hand, the planulae of the two Sclerophytum species have variable survival probability, but both mainly settle on rubble with CCA. These results highlight the differences in larval development and subsequent settlement behaviour and periods among soft coral species. This also serves as the first report describing the larval behaviour and settlement of these species in the subtropical region of Okinawa, Japan.

Litoamentenes A–K, eleven undescribed cembranoids with cytotoxicity from the South China Sea soft coral Litophyton amentaceum

Eleven undescribed cembrane-type diterpenoids, named litoamentenes A–K (1–11), were isolated from the soft coral Litophyton amentaceum collected from the South China Sea. Their structures were elucidated by extensive analysis of spectroscopic data, comparison with the literature data, single crystal X-ray diffraction, quantum chemical calculations and TDDFT-ECD calculations. This is the first systematic investigation of L. amentaceum. In particular, compounds 1–3 are cembrane-type norditerpenoids that lack isopropyl side chains. Compound 6 is a cembrane-type norditerpenoid without a methyl group at C-4, the first natural product identified with this carbon skeleton. Compounds 6, 9 and 10 showed modest cytotoxicity against several human cancer cell lines with IC50 values ranging from 3.99 to 14.56 μM.