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1.
Mar Drugs ; 22(5)2024 Apr 29.
Article in English | MEDLINE | ID: mdl-38786596

ABSTRACT

The escalation of jellyfish stings has drawn attention to severe skin reactions, underscoring the necessity for novel treatments. This investigation assesses the potential of hydroxybenzoic acid derivatives, specifically protocatechuic acid (PCA) and gentisic acid (DHB), for alleviating Nemopilema nomurai Nematocyst Venom (NnNV)-induced injuries. By employing an in vivo mouse model, the study delves into the therapeutic efficacy of these compounds. Through a combination of ELISA and Western blot analyses, histological examinations, and molecular assays, the study scrutinizes the inflammatory response, assesses skin damage and repair mechanisms, and investigates the compounds' ability to counteract venom effects. Our findings indicate that PCA and DHB significantly mitigate inflammation by modulating critical cytokines and pathways, altering collagen ratios through topical application, and enhancing VEGF and bFGF levels. Furthermore, both compounds demonstrate potential in neutralizing NnNV toxicity by inhibiting metalloproteinases and phospholipase-A2, showcasing the viability of small-molecule compounds in managing toxin-induced injuries.


Subject(s)
Cnidarian Venoms , Hydroxybenzoates , Skin , Animals , Hydroxybenzoates/pharmacology , Mice , Cnidarian Venoms/pharmacology , Skin/drug effects , Skin/pathology , Skin/metabolism , Gentisates/pharmacology , Nematocyst/drug effects , Disease Models, Animal , Cytokines/metabolism
2.
Sci Rep ; 11(1): 20627, 2021 10 18.
Article in English | MEDLINE | ID: mdl-34663887

ABSTRACT

Cnidarians are characterized by the possession of stinging organelles, called nematocysts, which they use for prey capture and defense. Nematocyst discharge is controlled by a mechanosensory apparatus with analogies to vertebrate hair cells. Members of the transient receptor potential (TRPN) ion channel family are supposed to be involved in the transduction of the mechanical stimulus. A small molecule screen was performed to identify compounds that affect nematocyst discharge in Hydra. We identified several [2.2]paracyclophanes that cause inhibition of nematocyst discharge in the low micro-molar range. Further structure-activity analyses within the compound class of [2.2]paracyclophanes showed common features that are required for the inhibitory activity of the [2.2]paracyclophane core motif. This study demonstrates that Hydra can serve as a model for small molecule screens targeting the mechanosensory apparatus in native tissues.


Subject(s)
Hydra/immunology , Nematocyst/drug effects , Nematocyst/physiology , Animals , Biomechanical Phenomena/drug effects , Biomechanical Phenomena/physiology , Cnidaria , Hydra/metabolism , Small Molecule Libraries/pharmacology , Transient Receptor Potential Channels/drug effects , Transient Receptor Potential Channels/physiology
3.
Toxins (Basel) ; 13(8)2021 07 21.
Article in English | MEDLINE | ID: mdl-34437380

ABSTRACT

The jellyfish species that inhabit the Mediterranean coastal waters are not lethal, but their stings can cause severe pain and systemic effects that pose a health risk to humans. Despite the frequent occurrence of jellyfish stings, currently no consensus exists among the scientific community regarding the most appropriate first-aid protocol. Over the years, several different rinse solutions have been proposed. Vinegar, or acetic acid, is one of the most established of these solutions, with efficacy data published. We investigated the effect of vinegar and seawater on the nematocyst discharge process in two species representative of the Mediterranean region: Pelagia noctiluca (Scyphozoa) and Carybdea marsupialis (Cubozoa), by means of (1) direct observation of nematocyst discharge on light microscopy (tentacle solution assay) and (2) quantification of hemolytic area (tentacle skin blood agarose assay). In both species, nematocyst discharge was not stimulated by seawater, which was classified as a neutral solution. In P. noctiluca, vinegar produced nematocyst discharge per se, but inhibited nematocyst discharge from C. marsupialis. These results suggest that the use of vinegar cannot be universally recommended. Whereas in case of a cubozoan C. marsupialis sting, the inhibitory effect of vinegar makes it the ideal rinse solution, in case of a scyphozoan P. noctiluca sting, vinegar application may be counterproductive, worsening the pain and discomfort of the stung area.


Subject(s)
Acetic Acid/administration & dosage , Bites and Stings/drug therapy , Cubozoa , First Aid/methods , Scyphozoa , Animals , Hemolysis/drug effects , Intestine, Small , Nematocyst/drug effects , Seawater , Species Specificity , Swine
4.
Toxins (Basel) ; 11(5)2019 05 11.
Article in English | MEDLINE | ID: mdl-31083576

ABSTRACT

Cnidarians are amongst the most venomous animals on the planet. They are also under significant threat due to the impacts of climate change. Corals and anemones undergo climate-induced bleaching during extreme environmental conditions, where a loss of symbiotic photosynthetic algae (zooxanthellae) causes whitening in colour, loss of internal food supply, and reduction in health, which can ultimately lead to death. What has yet to be determined is whether bleaching causes a reduction in the production or quality of venom. In this study, the sea anemone Entacmaea quadricolor was exposed to long-term light-induced bleaching to examine the effect that bleaching has on venom. Venom quality and quantity, as determined through lethality and haemolysis measures and nematocyst production was highly preserved over the five-month imposed bleaching event. Maintenance of venom and nematocyst production, despite a loss of an internal food source provided by endosymbiotic algae, indicates both the ecological importance of maintaining toxicity and a remarkable resilience that anemones have to major environmental stressors.


Subject(s)
Cnidarian Venoms/metabolism , Light , Sea Anemones/radiation effects , Animals , Artemia/drug effects , Cnidarian Venoms/toxicity , Erythrocytes/drug effects , Hemolysis/drug effects , Nematocyst/drug effects , Proteins/metabolism , Sea Anemones/metabolism , Sheep
5.
Biol Bull ; 235(2): 83-90, 2018 10.
Article in English | MEDLINE | ID: mdl-30358448

ABSTRACT

Certain species of sea anemone live in tightly packed communities, among clonemates and non-clonemates. Competition for space leads to intraspecific and interspecific aggressive interactions among anemones. The initial aggressive interactions appear to involve reciprocal discharge of cnidae triggered by contact with non-self feeding tentacles. We asked whether molecules contained in anemone-derived mucus constituted an important cue alone or in combination with cell surface molecules in stimulating aggressive or avoidance behaviors. In this study, we found that self and non-self stimuli differentially influenced two effector systems: cnida discharge and tentacle contraction. Interspecific mucus enhanced nematocyst discharge by 44% and spirocyst discharge by 90%, as compared to baseline discharge obtained in seawater alone. Conspecific stimuli accompanying touch inhibited specific tentacle contractions occurring on the far side of anemones relative to the site of contact. The greatest tentacle contractions occurred with exposure to interspecific mucus and tissue. Thus, several receptor systems are involved that integrate chemical and mechanical cues in order to initiate appropriate and graded effector responses during competition for space.


Subject(s)
Nematocyst/physiology , Sea Anemones/physiology , Aggression/physiology , Animals , Mucus/chemistry , Nematocyst/drug effects , Touch/physiology
6.
Mar Drugs ; 14(7)2016 Jul 08.
Article in English | MEDLINE | ID: mdl-27399728

ABSTRACT

There is a growing cause for concern on envenoming European species because of jellyfish blooms, climate change and globalization displacing species. Treatment of envenomation involves the prevention of further nematocyst release and relieving local and systemic symptoms. Many anecdotal treatments are available but species-specific first aid response is essential for effective treatment. However, species identification is difficult in most cases. There is evidence that oral analgesics, seawater, baking soda slurry and 42-45 °C hot water are effective against nematocyst inhibition and giving pain relief. The application of topical vinegar for 30 s is effective on stings of specific species. Treatments, which produce osmotic or pressure changes can exacerbate the initial sting and aggravate symptoms, common among many anecdotal treatments. Most available therapies are based on weak evidence and thus it is strongly recommended that randomized clinical trials are undertaken. We recommend a vital increase in directed research on the effect of environmental factors on envenoming mechanisms and to establish a species-specific treatment. Adequate signage on jellyfish stings and standardized first aid protocols with emphasis on protective equipment and avoidance of jellyfish to minimize cases should be implemented in areas at risk.


Subject(s)
Scyphozoa/drug effects , Scyphozoa/growth & development , Animals , Bites and Stings , Climate Change , Environment , Europe , Nematocyst/drug effects , Nematocyst/growth & development , Species Specificity
7.
Toxins (Basel) ; 8(1)2016 Jan 11.
Article in English | MEDLINE | ID: mdl-26761033

ABSTRACT

Despite the medical urgency presented by cubozoan envenomations, ineffective and contradictory first-aid management recommendations persist. A critical barrier to progress has been the lack of readily available and reproducible envenomation assays that (1) recapitulate live-tentacle stings; (2) allow quantitation and imaging of cnidae discharge; (3) allow primary quantitation of venom toxicity; and (4) employ rigorous controls. We report the implementation of an integrated array of three experimental approaches designed to meet the above-stated criteria. Mechanistically overlapping, yet distinct, the three approaches comprised (1) direct application of test solutions on live tentacles (termed tentacle solution assay, or TSA) with single image- and video-microscopy; (2) spontaneous stinging assay using freshly excised tentacles overlaid on substrate of live human red blood cells suspended in agarose (tentacle blood agarose assays, or TBAA); and (3) a "skin" covered adaptation of TBAA (tentacle skin blood agarose assay, or TSBAA). We report the use and results of these assays to evaluate the efficacy of topical first-aid approaches to inhibit tentacle firing and venom activity. TSA results included the potent stimulation of massive cnidae discharge by alcohols but only moderate induction by urine, freshwater, and "cola" (carbonated soft drink). Although vinegar, the 40-year field standard of first aid for the removal of adherent tentacles, completely inhibited cnidae firing in TSA and TSBAA ex vivo models, the most striking inhibition of both tentacle firing and subsequent venom-induced hemolysis was observed using newly-developed proprietary formulations (Sting No More™) containing copper gluconate, magnesium sulfate, and urea.


Subject(s)
Acetic Acid/therapeutic use , Bites and Stings/drug therapy , Cnidarian Venoms/toxicity , Cubozoa , Acetic Acid/pharmacology , Administration, Topical , Animals , Biological Assay , Erythrocytes/drug effects , First Aid , Hemolysis/drug effects , Humans , Nematocyst/drug effects
10.
Cell Physiol Biochem ; 34(2): 244-54, 2014.
Article in English | MEDLINE | ID: mdl-25033714

ABSTRACT

BACKGROUND: Pollution of marine ecosystems and, specifically, heavy metals contamination may compromise the physiology of marine animals with events occurring on a cellular and molecular level. The present study focuses on the effect of short-term exposure to heavy metals like Zinc, Cadmium, Cobalt and Lanthanum (2-10 mM) on the homeostasis of Pelagia noctiluca (Cnidaria, Scyphozoa), a jellyfish abundant in the Mediterranean sea. This species possesses stinging organoids, termed nematocysts, whose discharge and concomitant delivery of venom underlie the survival of all Cnidaria. METHODS: Nematocysts discharge response, elicited by combined chemico-physical stimulation, was verified on excised oral arms exposed to heavy metals for 20 min. In addition, the hemolytic activity of toxins, contained in the crude venom extracted from nematocysts isolated from oral arms, was tested on human erythrocytes, in the presence of heavy metals or their mixture. RESULTS: Treatment with heavy metals significantly inhibited both nematocysts discharge response and hemolytic activity of crude venom, in a dose-dependent manner, not involving oxidative events, that was irreversible in the case of Lanthanum. CONCLUSION: Our findings show that the homeostasis of Pelagia noctiluca, in terms of nematocysts discharge capability and effectiveness of venom toxins, is dramatically and rapidly compromised by heavy metals and confirm that this jellyfish is eligible as a model for ecotoxicological investigations.


Subject(s)
Cnidaria/drug effects , Cnidarian Venoms/toxicity , Metals, Heavy/pharmacology , Nematocyst/drug effects , Animals , Cnidaria/metabolism , Hemolysis/drug effects , Nematocyst/metabolism
13.
Diving Hyperb Med ; 44(1): 30-4, 2014 Mar.
Article in English | MEDLINE | ID: mdl-24687483

ABSTRACT

OBJECTIVE: To determine the effect acetic acid (vinegar) has on discharged nematocysts in a simulated sting from Chironex fleckeri. METHOD: This research was performed in 2 parts: 1 C. fleckeri tentacles placed on amniotic membrane were electrically stimulated, and venom washings collected before and after application of vinegar. Lyophilised venom washings were run through a fast-performance protein liquid chromatography column to confirm the venom profile, with a quantitative measure of venom from each washing calculated using UNICORN™ software. 2 The toxicity of the washings was determined by application to human cardiomyocytes, with percentage of cell detachment providing a measure of cell mortality, and hence toxicity. RESULTS: Part 1: There was a 69 ± 32% (F = 77, P < 0.001) increase in venom discharge after vinegar was applied compared to post electrical stimulation. Part 2: Venom collected after the administration of vinegar demonstrated the same toxicity as venom from electrically stimulated C. fleckeri tentacles and milked venom, causing cell mortality of 59 ± 13% at 10 µg ml⁻¹ compared to 57 ± 10% and 65 ± 7% respectively. CONCLUSION: This in-vitro research suggests that vinegar promotes further discharge of venom from already discharged nematocysts. This raises concern that vinegar has the potential to do harm when used as first aid in C. fleckeri envenomation.


Subject(s)
Acetic Acid/adverse effects , Cnidarian Venoms/metabolism , Cubozoa , Myocytes, Cardiac/drug effects , Nematocyst/drug effects , Animals , Bites and Stings , Cell Death , Cells, Cultured , Cnidarian Venoms/toxicity , Electric Stimulation/methods , Humans , Nematocyst/metabolism , Software
14.
Toxicon ; 83: 52-8, 2014 Jun.
Article in English | MEDLINE | ID: mdl-24637105

ABSTRACT

Nematocyst discharge and concomitant delivery of toxins is triggered to perform both defence and predation strategies in Cnidarians, and may lead to serious local and systemic reactions in humans. Pelagia noctiluca (Cnidaria, Scyphozoa) is a jellyfish particularly abundant in the Strait of Messina (Italy). After accidental contact with this jellyfish, not discharged nematocysts or even fragments of tentacles or oral arms may tightly adhere to the human skin and, following discharge, severely increase pain and the other adverse consequences of the sting. The aim of the present study is to verify if the local anesthetic lidocaine and other compounds, like alcohols, acetic acid and ammonia, known to provide pain relief after jellyfish stings, may also affect in situ discharge of nematocysts. Discharge was induced by a combined physico-chemical stimulation of oral arms by chemosensitizers (such as N-acetylated sugars, aminoacids, proteins and nucleotides), in the presence or absence of 1% lidocaine, 70% ethanol, 5% acetic acid or 20% ammonia, followed by mechanical stimulation by a non-vibrating test probe. The above mentioned compounds failed to induce discharge per se, and dramatically impaired the chemosensitizer-induced discharge response. We therefore suggest that prompt local treatment of the stung epidermis with lidocaine, acetic acid, ethanol and ammonia may provide substantial pain relief and help in reducing possible harmful local and systemic adverse reaction following accidental contact with P. noctiluca specimens.


Subject(s)
Acetic Acid/pharmacology , Ammonia/pharmacology , Cnidaria/drug effects , Ethanol/pharmacology , Lidocaine/pharmacology , Nematocyst/drug effects , Animals , Cnidaria/physiology , Stimulation, Chemical
15.
Cell Physiol Biochem ; 32(7): 77-85, 2013.
Article in English | MEDLINE | ID: mdl-24429816

ABSTRACT

BACKGROUND: Increased acidification/PCO2 of sea water is a threat to the environment and affects the homeostasis of marine animals. In this study, the effect of sea water pH changes on the osmotic phase (OP), regulatory volume decrease (RVD) and discharge of the jellyfish Pelagia noctiluca (Cnidaria, Scyphozoa) nematocytes, collected from the Strait of Messina (Italy), was assessed. METHODS: Isolated nematocytes, suspended in artificial sea water (ASW) with pH 7.65, 6.5 and 4.5, were exposed to hyposmotic ASW of the same pH values and their osmotic response and RVD measured optically in a special flow through chamber. Nematocyte discharge was analyzed in situ in ASW at all three pH values. RESULTS: At normal pH (7.65), nematocytes subjected to hyposmotic shock first expanded osmotically and then regulated their cell volume within 15 min. Exposure to hyposmotic ASW pH 6.5 and 4.5 compromised the OP and reduced or totally abrogated the ensuing RVD, respectively. Acidic pH also significantly reduced the nematocyte discharge response. CONCLUSION: Data indicate that the homeostasis and function of Cnidarians may be altered by environmental changes such as sea water acidification, thereby validating their use as novel bioindicators for the quality of the marine environment.


Subject(s)
Nematocyst/drug effects , Scyphozoa/drug effects , Seawater/chemistry , Acids/toxicity , Animals , Cell Size/drug effects , Homeostasis , Hydrogen-Ion Concentration , Nematocyst/chemistry , Nematocyst/metabolism , Osmotic Pressure/drug effects
16.
Article in English | MEDLINE | ID: mdl-22526110

ABSTRACT

Nematocytes' discharge is triggered to perform both defense and predation strategies in cnidarians and occurs under chemico-physical stimulation. In this study, different compounds such as amino acids and proteins (mucin, albumin, poly-L: -lysine, trypsin), sugars and N-acetylate sugars (N-acetyl neuraminic acid, N-acetyl galactosamine, sucrose, glucose, agarose and trehalose), nucleotides (ATP and cAMP), were tested as chemosensitizers of nematocyte discharge in the oral arms of the scyphozoan Pelagia noctiluca, particularly abundant in the Strait of Messina (Italy). Excised oral arms were submitted to a combined chemico-physical stimulation by treatment with different compounds followed by mechanical stimulation by a non-vibrating test probe. Discharge induced by a chemico-physical stimulation was more significant than that obtained after mechanical stimulation alone. A chemosensitizing mechanism, with a dose-dependent effect, was observed after treatment with sugars, amino compounds such as glutathione, nucleotides and mucin, according to that already seen in sea anemones. Such findings suggest that, though Anthozoa and Scyphozoa exhibit different divergence times during the evolutionary process, the discharge activation exhibits common features, probably derived from their last common ancestor.


Subject(s)
Chemoreceptor Cells/physiology , Nematocyst/physiology , Scyphozoa/physiology , Signal Transduction , Amines/pharmacology , Amino Acids/pharmacology , Animals , Calcium/metabolism , Carbohydrates/pharmacology , Chemoreceptor Cells/drug effects , Dose-Response Relationship, Drug , Mechanotransduction, Cellular , Nematocyst/cytology , Nematocyst/drug effects , Nucleotides/pharmacology , Physical Stimulation , Proteins/pharmacology , Scyphozoa/cytology , Scyphozoa/drug effects , Signal Transduction/drug effects , Time Factors
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