Stinging cells are characteristic of representatives of the mollusk type. The meaning of stinging cells in the encyclopedia of biology

Stinging cells stinging cells

(nematocytes), cells of the surface epithelium of coelenterates, serving for defense and attack. The stinging capsule of the stinging cells contains a coiled thread ejected during an attack, along which a poisonous liquid flows.

STINGING CELLS (nematocytes), cells of the surface epithelium of coelenterates, serving for defense and attack. The stinging capsule of stinging cells contains a coiled thread ejected during an attack, along which a poisonous liquid flows.

Encyclopedic Dictionary . 2009 .

See what “stinging cells” are in other dictionaries:

Cells - get a working discount coupon at Akademika Gallery Cosmetics or buy profitable cells with free delivery on sale at Gallery Cosmetics

Nettle cells, nematocytes, cnidopites, cells in the integumentary epithelium, as well as in the endoderm of cnidarians, performing the functions of attacking prey, holding it and protecting it from enemies. In the S. k. there is a completed b. including poisonous liquid capsule... ... Biological encyclopedic dictionary

- (nematocytes) cells of the surface epithelium of coelenterates, serving for defense and attack. The stinging capsule of stinging cells contains a coiled thread ejected during an attack, along which a poisonous liquid flows... Big Encyclopedic Dictionary

Or cell organs found in typical coelenterates (Cnidaria) and containing special vesicles, also called C. These organs discharge when irritated and paralyze small animals, and in large ones they cause a sensation of a slight burn. C. cells... ... Encyclopedic Dictionary F.A. Brockhaus and I.A. Efron

Nettle cells, nematocytes, special cells in the integumentary epithelium, as well as in the endoderm of most coelenterates (See Coelenterates) (with the exception of ctenophores), performing the functions of attacking prey and protecting against enemies. In S. k,... ... Great Soviet Encyclopedia

- (nematocytes), cells of the surface epithelium of coelenterates, serving for defense and attack. Strecat. S.'s capsule contains a coiled thread that is thrown out during an attack, and a poisonous liquid pours out of the cut... Natural science. Encyclopedic Dictionary

stinging cells, organs- Special cells or organs in coelenterates that serve to attack and protect against enemies... Dictionary of many expressions

Representatives of this group of animals have an intestinal cavity in which the food they have captured is digested. But digestion of food in coelenterates occurs not only in intestinal cavity but also in individual cells lining the walls of the cavity. In other words, along with intraintestinal digestion, intracellular digestion is also carried out, which indicates a low stage of evolutionary development of these animals.

As a defense, coelenterates have special stinging cells, characteristic of the simplest unicellular organisms. The coelenterates include primarily coral polyps where a wide variety of fish live and jellyfish‚which can be highly poisonous not only in tropical seas, but also in more northern waters. In particular, in Pacific Ocean there is a relatively small jellyfish little cross contact with which is dangerous for humans.

sea ​​wasp, related to box jellyfish, is one of the most dangerous marine animals. Its poison affects primarily the heart, which can result in paralysis of the heart muscle in a short time after the defeat - from 30 seconds to several minutes. During this time, a person in the water, confused, will not be able to help himself. People nearby will not have time to provide help either. Often, poisoning from a sea wasp resulted in the death of a person right in the water. Very poisonous and chiropsalmus. Its venom is close to the venom of a sea wasp in terms of its effect on the human body. A person can die from its burn in 3 to 8 minutes.

If we consider in more detail the poisonous apparatus of coelenterates, then first of all we especially notice arranged cells, located mainly on their tentacles in the surface layer of tissue. Each stinging cell contains a formation that looks like a vesicle. It was named -. In the vial, in the form of a coiled spiral, lies a hollow thread-like tube, and the vial itself is filled with a poisonous liquid. On outer surface The stinging cell has a motionless sensitive hair -. It is the touch of the cnidocil that is instantly transmitted to the stinging cell, and the thread, being thrown out, digs into the body of the victim, pouring poison into it. Of course, more than one such cell will move upon contact with an animal. When a diver encounters a coelenterate, he touches thousands of these stinging cells.

First of all, it should be noted that, in comparison with the venoms of many poisonous animals, the venoms of coelenterates have been poorly studied. There are many reasons for this, including difficulties in catching in the required quantities and difficulties in keeping them in laboratory conditions. Signs of poisoning from these animals may vary. This depends on the type of animal, as well as on what part of the body the poison enters and how sensitive the person is to this poison. For example, the most dangerous are injections and stings in the upper third of the body, especially in the face and neck. Children are always more sensitive to any poison compared to adults.

Poisons of a protein nature, among which there are toxic proteins - polypeptides, both devoid of enzymes and containing them, were first discovered in coelenterates.

The stinging apparatus of coelenterates sometimes causes weak local reaction the body in the absence of a general reaction, and sometimes it acts like an electric shock. This is typical of some box jellyfish, stinging cells which penetrate deeply into human skin, as well as for cyanea, physalia, stinging coral. Imagine being hit in deep water electric shock or applied a hot iron to the body. You can drown from lightning shock.

Spreading pain can be throbbing or shooting, sharp. Exudative blisters and skin hemorrhages typical of severe damage may appear on the skin. The affected areas take different shapes, depending on the shape and size of the tentacles of the poisonous animal, what part of them touched the human skin. Among the coelenterates there are animals called sea ​​anemones, the poison of these beautiful animals, which outwardly resemble a blooming flower, does not pose a serious danger to humans, but nevertheless there is the so-called “sponge catcher disease”, which occurs when meeting a pink sea anemone. When burned by it, large ulcers form on the human skin. The affected area of ​​skin may change color to black, and the skin in this area significantly loses sensitivity.

Sea anemone - the animal that causes "sponge catcher disease"

In severe cases, which occur when the most dangerous scyphojellyfish are attacked by the tentacles, general reaction body, expressed in the following symptoms:

• chills;
• nausea ending in vomiting;
• shortness of breath due to difficulty breathing or heart reaction to poison;
• pain occurs in the muscles and joints, there may be muscle spasms;
• diarrhea.

can lead to changes in blood composition - eosinophilia, leukocytosis, increased ROE. Often arise and in which it is recommended to introduce antihistamines. An allergic reaction occurs in response to exposure to some factor that is difficult for the body to tolerate. For example, a foreign protein in animal venom. When you have an allergy, the body releases certain substances into the blood, including histamine. Allergic reactions in some sensitive individuals it may even cause anaphylactic shock when the pulse drops sharply and the heart stops working.

The most characteristic feature of all coelenterates, including jellyfish, polyps, and corals, is the presence of stinging, or nettle, cells that develop from undifferentiated intermediate cells.

Each stinging cell contains an oval or oblong chitinous capsule. The walls of the capsule are two-layered. Due to the first (outer) layer, a small cap is formed at the anterior end of the capsule, while the second layer protrudes inward and gives rise to a thin spirally twisted tube called a stinging filament.
The capsule cavity is filled with a toxic liquid.
On the outer surface of the stinging cell there is a sensitive hair - cnidocil. It is a flagellum, similar in structure to the flagellum of protozoa, but, unlike them, immobile. The cnidocil is surrounded by finger-like outgrowths of the cytoplasm - microvilli, which can only be seen with a microscope.
The slightest touch to the cnidocil causes excitation of the stinging cell, which manifests itself in a rapid, shot-like, eversion of the stinging thread. Depending on the details of the structure and the method of influencing the enemy or victim, there are many types of structure of stinging capsules.
Let's consider only the most important of them.

Some have a long, barbed thread. When such a capsule is “shot,” the thread pierces the victim’s body and pours out the contents of the capsule, causing local or general poisoning.
Other capsules have a short thread, devoid of spines. Such threads only entangle the victim.
Finally, there are sticky threads that keep the prey glued. They can also serve for temporary gluing of the animal when moving.

Stinging cells are located over the entire surface of the body of coelenterates, but their largest accumulations are observed on the tentacles and around the mouth opening, i.e. in places where they are needed most.
After the “shot,” the stinging cell dies and a new one develops in its place or nearby.
Interestingly, stinging capsules can act even after the death of the animal. Thus, touching dead, beached jellyfish can cause severe redness of the skin, accompanied by a burning sensation.

When some turbellarians and opisthobranchs eat coelenterates, some of the stinging cells pass into the body of the predator. Here the stinging cells are located in the outer integument and can function normally.

Stinging cells, especially those containing poisonous liquid in capsules, are a formidable weapon that is used by coelenterates (jellyfish, polyps, corals) both for defense and attack. Small animals, in contact with coelenterates, become stuck, entangled and pierced by stinging threads, and poison enters their body, causing paralysis or death.
After this, the victim is carried by the tentacles to the mouth opening and swallowed. Even fairly large animals are often affected by the venom of the stinging capsules, which causes severe pain.

The strength of the poison various types coelenterates on humans is not the same: some of them are completely harmless, others pose a serious danger.
After touching our Black Sea jellyfish Cornerota or Aurelia, you will feel a burning sensation, which is stronger the more tender the skin at the site of contact with the jellyfish is and is similar to a nettle burn. These discomfort pass quickly without leaving a trace.
However, in the sea there are many much more dangerous coelenterates, touching which can cause serious illness and even the death of a person. Thus, many sea anemones, including those living in the Sea of ​​Japan, cause not only “burns”, but also long-term swelling of the contact site.
However, the most unpleasant consequences are not “burns” and tumors, but general poisoning of the body with the poison of stinging cells.

Sailors sailing in tropical seas have long used notoriety beautiful siphonophora physalia (Physalia physalis). The physalia is equipped with a large, up to 20 cm long, swim bladder, rising above the surface of the water, from which the longest (up to 30 m) hunting tentacles, equipped with numerous stinging cells, hang down.
The physalia is very brightly colored - the bladder is blue, violet and purple, all the appendages hanging down are ultramarine. For its bright color, physalia also received the name “Portuguese man-of-war” - in the Middle Ages, the Portuguese loved to colorfully paint their warships.
Physalia floating on the surface of the sea is visible from afar, and swimmers are always careful not to come into contact with it, as they can get a severe “burn” that causes burning pain. A person affected by physalia, even if he is an excellent swimmer, has difficulty staying on the water. Soon after this, a general severe illness with fever may occur, lasting several days.
Physalia is distributed exclusively in tropical seas and is very rarely carried by currents and wind into warmer seas of temperate latitudes.

There are often reports of serious and even fatal poisonings, caused by large scyphoid jellyfish Chirodropus, Chirqsalmus, and, in particular, Chironex from the order box jellyfish, which are considered one of the most dangerous creatures living on our planet. These are also inhabitants of tropical seas. They are also called "sea wasps".
The height of the bell of these jellyfish reaches 10-15 cm; four branched tentacles sit along its edge. The poison contained in their stinging cells, when it gets on the skin, causes necrosis of the epidermis and poorly healing ulcers, which leave deep scars.
But the greatest danger lies in the effect of poison on nervous system which can lead to damage respiratory center and cause the death of a person.
For the first time, attention was paid to the toxicity of these jellyfish during the Second World War in Australia, where a significant number of Europeans were evacuated.
Several cases of mysterious deaths of people while swimming have become known, and no victims were found on the body obvious signs damage. For a long time the mystery remained unsolved, but then it was established that the cause of death was the chirodropus jellyfish.
The person who received the “burn” choked and drowned. It was noted that among the injured or dead there were mainly visitors. Local people, especially indigenous Australians, could swim without fear. Apparently, they have developed immunity to the poison of this jellyfish.

In the fauna of our Far Eastern seas there is also one type of jellyfish, belonging to the hydroid class, which causes serious illnesses upon contact with it. Local residents call this jellyfish "cross" ( scientific name- Gonionemus vertens) for the cross-shaped arrangement of four dark radial canals, along which four also dark-colored gonads stretch.
The umbrella of a jellyfish is transparent, of a faint yellowish-green color; in some specimens it reaches 25 mm in diameter, but usually 15-18 mm. At the edge of the umbrella of the cross there are up to 80 tentacles that can strongly retract and contract. The tentacles of these jellyfish are densely lined with stinging cells, which are arranged in belts. In the middle of the length of the tentacle there is a suction cup, with the help of which the jellyfish can attach to various objects under water.
Crossfishes live in the Sea of ​​Japan and near the Kuril Islands. They usually stay in shallow water, in thickets of eelgrass. In rainy years, when the water off the coast is greatly desalinated, there are almost no cross jellyfish and they die. In dry summers they can appear in masses.
When one of the tentacles of the cross accidentally touches a swimming person, the jellyfish rushes in that direction, trying to attach to it with the suction cup on the tentacle. At this moment, the bather receives a severe “burn”; after a few minutes, the skin on the body of the “burn” turns red and becomes blistered. Within 10-30 minutes, general weakness sets in, pain in the lower back appears, breathing becomes difficult, arms and legs go numb.

A very strong poison is produced by the stinging cells of zoantharians - relatively little studied tropical six-rayed corals. Poisoning with a poison (called palytoxin) affects the activity of the heart and the entire circulatory system of vertebrates, including humans. Zoantharium venom turned out to be 100 times stronger than cobra venom.

Stinging cells or organs- cells found in typical coelenterates (Cnidaria) and containing special vesicles, also called C. These organs discharge when irritated and paralyze small animals, and in large ones they cause a sensation of a slight burn. S. cells are considered by some to be a modification of sensory cells (Schneider), by others as neuromuscular (Kleinenberg), and by others as glandular (Lendenfeld). Finally, the fourth (Ivantsov) consider them to be a modification of ciliated cells. The C. cell, or cnidoblast, is equipped on its surface with a special plasma appendage, or cnidocil, which in some cases can be forced to disintegrate into cilia (maceration), and sometimes it is actually replaced by several cilia. At the opposite end of the cell, the cell extends into a process, which abuts the supporting plate and grows tightly to it. Some considered this process to be a nerve process, others assumed that in its deep-lying part it contained muscle fibers and, accordingly, considered S. cells to be sensory or neuromuscular. Apparently, this process has neither one nor the other meaning, but is simply a supporting leg, but still the S. cells are in connection with the ganglion cells and receive impulses from them. Inside the cell there is a thin capsule, the walls of which consist of a substance similar to chitin. Inside the capsule there is liquid content and a spirally coiled thread. In some S. cells, this thread forms a direct continuation of the walls of the capsule, screwed inside it. When the bubble is discharged, this thread is turned inside out and exposed. Such vesicles are called nematocysts. In other cells, this thread is thrown out entirely, and such vesicles are called spirocysts. The latter are found in higher polyps. The S. thread is sometimes equipped with spines facing backwards. The contents of the bubble are apparently a hygroscopic, poisonous, burning substance. Then, in some cases, in S. cells, an elastic thread was observed inside, which, attached to the supporting plate, passes through the supporting leg of the cell, sometimes twisting in a spiral, and then envelops the vesicle like a ball and attaches to it. Many assumptions have been made regarding the discharge process itself. It is not entirely clear whether the discharge is only a reflex irritation of the subepithelial nerve cells, or the S. cells themselves are irritable when touched, for example, by the cnidocil. Some consider the very pushing out of the thread to be a consequence of the contraction of the supporting leg and the cell itself, and attribute to them a muscular character. Others, denying this nature of the indicated parts, try to explain the stretching of the threads by the swelling of the contents of the bubble due to the entry of water. The mechanism of entry of the poisonous contents of the vesicle into the body of an animal affected by S. filament is also not clear. Organs of formation similar in nature to S. are observed in protozoa (see.