The article'slead sectionmay need to be rewritten.The reason given is:it does not summarise the body.(December 2023) |
Planarians(triclads) are free-livingflatwormsof the classTurbellaria,[2][3]orderTricladida,[4]which includes hundreds of species, found in freshwater, marine, and terrestrial habitats.[5]Planarians are characterized by a three-branched intestine, including a single anterior and two posterior branches.[5]Their body is populated byadult stem cellscalledneoblasts,which planarians use for regenerating missing body parts.[6]Many species are able toregenerateany missing organ, which has made planarians a popular model in research of regeneration and stem cell biology.[7]The genome sequences of several species are available, as are tools for molecular biology analysis.[7][8]
Planarian | |
---|---|
Dugesia subtentaculata,adugesiid. | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Platyhelminthes |
Subphylum: | Rhabditophora |
Order: | Tricladida Lang, 1884 |
Subdivis[1] | |
|
The order Tricladida is split into three suborders, according to their phylogenetic relationships:Maricola,CavernicolaandContinenticola.Formerly, the Tricladida was split according to their habitat:Maricola(marine planarians);Paludicola(freshwater planarian); andTerricola(land planarians).[9]
Planarians move by beatingciliaon theventraldermis,allowing them to glide along on a film ofmucus.Some also can move by undulations of the whole body by the contractions of muscles built into the body membrane.[10]
Triclads play an important role in watercourse ecosystems and are often very important as bio-indicators.[11]
Phylogeny and taxonomy
editPhylogeny
editPhylogenetic supertree after Sluys et al., 2009:[1]
Tricladida | |
Taxonomy
editLinnaeanranks after Sluyset al.,2009:[1]
- OrderTricladida
- SuborderMaricola
- SuperfamilyCercyroidea
- FamilyCentrovarioplanidae
- FamilyCercyridae
- FamilyMeixnerididae
- SuperfamilyBdellouroidea
- FamilyUteriporidae
- FamilyBdellouridae
- SuperfamilyProcerodoidea
- FamilyProcerodidae
- SuperfamilyCercyroidea
- SuborderCavernicola[12]
- FamilyDimarcusidae
- SuborderContinenticola
- SuperfamilyPlanarioidea
- FamilyPlanariidae
- FamilyDendrocoelidae
- FamilyKenkiidae
- SuperfamilyGeoplanoidea
- FamilyDugesiidae
- FamilyGeoplanidae
- SuperfamilyPlanarioidea
- SuborderMaricola
Anatomy and physiology
editPlanarians arebilaterianflatworms that lack afluid-filled body cavity,and the space between their organ systems is filled withparenchyma.[5][13]Planarians lack a circulatory system, and absorb oxygen through their body wall. They uptake food to their gut using a muscular pharynx, and nutrients diffuse to internal tissues. A three-branched intestine runs across almost the entire body, and includes a single anterior and two posterior branches. The planarian intestine is ablind sac,having no exit cavity, and therefore planarians uptake food and egest waste through the same orifice, located near the middle of the ventral body surface.[5]
The excretory system is made of many tubes with manyflame cellsand excretory pores on them. Also, flame cells remove unwanted liquids from the body by passing them through ducts which lead to excretory pores, where waste is released on the dorsal surface of the planarian.
The triclads have an anterior end or head where sense organs, such as eyes andchemoreceptors,are usually found. Some species have auricles that protrude from the margins of the head. The auricles can contain chemical and mechanical sensory receptors.[14]
The number of eyes in the triclads is variable depending on the species. While many species have two eyes (e.g.DugesiaorMicroplana), others have many more distributed along the body (e.g. mostGeoplaninae). Sometimes, those species with two eyes may present smaller accessory or supernumerary eyes. The subterranean triclads are often eyeless or blind.[14]
The body of the triclads is covered by a ciliated epidermis that containsrhabdites.Between the epidermis and the gastrodermis there is a parenchymatous tissue ormesenchyme.[14]
Nervous system
editThe planarian nervous systems consists of a bilobed shaped cerebralganglionthat is referred to as the planarianbrain.[15]Longitudinal ventral nerve chords extend from the brain to the tail. Transverse nerves,commissure,connect the ventral nerve chords forming ladder-like nerve system.[5]The brain has been shown to exhibit spontaneous electrophysiological oscillations,[16]similar to the electroencephalographic (EEG) activity of other animals.
The planarian has a soft, flat, wedge-shaped body that may be black, brown, blue, gray, or white. The blunt, triangular head has two ocelli (eyespots), pigmented areas that are sensitive to light. There are two auricles (earlike projections) at the base of the head, which are sensitive to touch and the presence of certain chemicals. The mouth is located in the middle of the underside of the body, which is covered with hairlike projections (cilia). There are no circulatory or respiratory systems; oxygen enters and carbon dioxide leaves the planarian's body by diffusing through the body wall.
Reproduction
editThis articleneeds additional citations forverification.(November 2016) |
Triclads reproduce sexually and asexually, and different species may be able to reproduce by one or both modes.[5]Planarians arehermaphrodites.In sexual reproduction, the mating generally involves mutual insemination.
Thus, one of their gametes will combine with the gamete of another planarian. Each planarian transports its secretion to the other planarian, giving and receivingsperm.Eggs develop inside the body and are shed in capsules. Weeks later, the eggs hatch and grow into adults. In asexual reproduction, the planarian fissions and each fragment regenerates its missing tissues, generating complete anatomy and restoring functions.[17]Asexual reproduction, similar to regeneration following injury, requiresneoblasts,adult stem cells, which proliferate and produce differentiated cells.[17]Some researchers claim that the products derived from bisecting a planarian are similar to the products of planarian asexual reproduction; however, debates about the nature of asexual reproduction in planarians and its effect on the population are ongoing.[18]Some species of planarian are exclusively asexual, whereas some can reproduce both sexually and asexually.[19]In most of the cases the sexual reproduction involve two individuals; auto fecundation has been rarely reported (e.g. inCura foremanii).[14]
Neoblasts
editNeoblasts are abundantadult stem cellsthat are found in the planarian parenchyma across the planarian body.[20]They are small and round cells, 5 to 10 μm, and characterized by a large nucleus, which is surrounded by little cytoplasm.[20]Neoblasts are required for regenerating missing tissues and organs, and they continuously replenish tissues by producing new cells.[17]Neoblasts can self-renew and generate progenitors for different cell types. In contrast to adult vertebrate stem cells (e.g.,hematopoietic stem cell), neoblasts arepluripotent(i.e., producing all somatic cell types).[21]Moreover, they give rise to differentiating, post-mitotic, cells directly,[22]and not by producing rapidly-dividingtransit amplifying cells.[20]Consequently, neoblasts divide frequently, and apparently lack a large sub-population of dormant or slow-cycling cells.[23]
As a model system in biological and biomedical research
editThelife historyof planarians make them a model system for investigating a number of biological processes, many of which may have implications for human health and disease. Advances inmoleculargenetictechnologies has made the study ofgenefunction possible in these animals and scientists are studying them worldwide. Like other invertebrate model organisms, for exampleC. elegansandD. melanogaster,the relative simplicity of planarians facilitates experimental study.
Planarians have a number of cell types, tissues and simple organs that arehomologousto our owncells,tissuesandorgans.However,regenerationhas attracted the most attention.Thomas Hunt Morganwas responsible for some of the first systematic studies (that still underpin modern research) before the advent ofmolecular biologyas a discipline.
Planarians are also an emerging model organism foraging research.These animals have an apparently limitless regenerative capacity, and asexualSchmidtea mediterraneahas been shown to maintain its telomere length through regeneration.[24]
Regeneration
editPlanarian regeneration combines new tissue production with reorganization to the existing anatomy, morphallaxis.[17]The rate of tissue regrowth varies between species, but in frequently used lab species, functional regenerated tissues are available already 7–10 days following tissue amputation.[17]Regeneration starts following an injury that require the growth of a new tissue.[25]Neoblasts localized near the injury site proliferate to generate a structure of differentiating cells calledblastema.Neoblasts are required for new cell production, and they therefore provide the cellular basis for planarian regeneration.[26]Cell signaling mechanisms provide positional information that regulates the cell types and tissues that are produced from the neoblasts in regeneration.[27]Many signaling molecules that provide positional information to neoblasts, in regeneration and homeostasis, are expressed in muscle cells.[28]Following injury, muscle cells throughout the body can alter the expression of genes that encode molecules that provide positional information.[28]Therefore, the activities of neoblasts and muscle cells following injuries are essential for successful regeneration.[29]
Historically, planarians have been considered "immortal under the edge of a knife."[30]Very small pieces of the planarian, estimated to be as little as 1/279th of the organism it is cut from, can regenerate back into a complete organism over the course of a few weeks.[31]New tissues can grow due topluripotentstem cellsthat have the ability to create all the various cell types.[32]These adult stem cells are calledneoblasts,and comprise 20% or more of the cells in the adult animal.[33]They are the only proliferating cells in the worm, and they differentiate into progeny that replace older cells. In addition, existingtissueis remodeled to restore symmetry and proportion of the new planaria that forms from a piece of a cut up organism.[33][17]
The organism itself does not have to be completely cut into separate pieces for the regeneration phenomenon to be witnessed. In fact, if the head of a planarian is cut in half down its center, and each side retained on the organism, it is possible for the planarian to regenerate two heads and continue to live.[34]Researchers, including those fromTufts Universityin the U.S., sought to determine how microgravity and micro-geomagnetic fields would affect the growth and regeneration of planarianflatworms,Dugesia japonica.They discovered that one of the amputated fragments sent to space regenerated into a double-headed worm. The majority of such amputated worms (95%) did not do so, however. An amputated worm regenerated into a double-head creature after spending five weeks aboard the International Space Station (ISS) – though regeneration of amputated worms as double-headed heteromorphosis is not a rare phenomenon unique to a microgravity environment.[35]In contrast, two-headed planaria regenerates can be induced by exposing amputated fragments to electrical fields. Such exposure with opposite polarity can induce a planarian with 2 tails. Two-headed planaria regenerates can be induced by treating amputated fragments with pharmacological agents that alter levels of calcium, cyclic AMP, and protein kinase C activity in cells,[36]as well as by genetic expression blocks (interference RNA) to the canonical Wnt/β-Catenin signalling pathway.[27]
Biochemical memory experiments
editIn 1955, Robert Thompson andJames V. McConnellconditionedplanarian flatworms by pairing a bright light with an electric shock. After repeating this several times they took away the electric shock, and only exposed them to the bright light. The flatworms would react to the bright light as if they had been shocked. Thompson and McConnell found that if they cut the worm in two, and allowed both worms to regenerate each half would develop the light-shock reaction. In 1963, McConnell repeated the experiment, but instead of cutting the trained flatworms in two he ground them into small pieces and fed them to other flatworms. He reported that the flatworms learned to associate the bright light with a shock much faster than flatworms who had not been fed trained worms.
This experiment intended to test whether memory could be transferred chemically. The experiment was repeated with mice, fish, and rats, but it always failed to produce the same results. The perceived explanation was that rather than memory being transferred to the other animals, it was the hormones in the ingested ground animals that changed the behavior.[37]McConnell believed that this was evidence of a chemical basis for memory, which he identified asmemory RNA.McConnell's results are now attributed toobserver bias.[38][39]Noblinded experimenthas ever reproduced his results of planarians scrunching when exposed to light. Subsequent explanations of this scrunching behaviour associated with cannibalism of trained planarian worms were that the untrained flatworms were only following tracks left on the dirty glassware rather than absorbing the memory of their fodder.
In 2012, Tal Shomrat and Michael Levin have shown that planarians exhibit evidence of long-term memory retrieval after regenerating a new head.[40]
Planarian species used for research and education
editSeveral planarian species are commonly used for biological research. Popular experimental species areSchmidtea mediterranea,Schmidtea polychroa,andDugesia japonica,[5]which in addition to excellent regenerative abilities, are easy to culture in the lab. In recent decades,S. mediterraneahas emerged as the species of choice for modern molecular biology research, due to its diploid chromosomes and the availability of both asexual and sexual strains.[7]
The most frequently used planarian in high school and first-year college laboratories is the brownishGirardia tigrina.Other common species used are the blackishPlanaria maculataandGirardia dorotocephala.
See also
edit- Worm Runner's Digest– Satirical (and serious) science journal
References
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- ^abWitchley, Jessica N.; Mayer, Mirjam; Wagner, Daniel E.; Owen, Jared H.; Reddien, Peter W. (2013-08-29)."Muscle cells provide instructions for planarian regeneration".Cell Reports.4(4): 633–641.doi:10.1016/j.celrep.2013.07.022.ISSN2211-1247.PMC4101538.PMID23954785.
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External links
edit- More information on freshwater planarians and their biology
- More information on the genetic screen to identify regeneration genes
- YouTube videos:Planaria eating worm segment,Planarian
- Schmidtea mediterranea,facts, anatomy, imageat GeoChemBio
- Alejandro Sanchez-Alvarado's Seminar: Regeneration in Planarians
- Link to an article discussing some work on planarian immortality
- A user-friendly visualization tool and database of planarian regeneration experiments
- Aboobaker, Aziz (27 February 2008)."Immortal Worms".Test Tube.Brady Haranfor theUniversity of Nottingham.
- Tricladida on the Encyclopedia of Life (EOL)
- Land planarianson theUF/IFASFeatured Creatures Web site