Left-right asymmetry, (LR asymmetry) is the process in early
embryonic development that
breaks the normal symmetry in the
bilateral
Bilateral may refer to any concept including two sides, in particular:
*Bilateria, bilateral animals
*Bilateralism, the political and cultural relations between two states
*Bilateral, occurring on both sides of an organism ( Anatomical terms of l ...
embryo. In vertebrates, left-right asymmetry is established early in development at a structure called the left-right organizer (the name of which varies between species) and leads to activation of different signalling pathways on the left and right of the embryo.
This in turn cause several organs in adults to develop LR asymmetry, such as the tilt of the heart, the different number lung lobes on each side of the body and the position of the stomach and spleen on the right side of the body. If this process does not occur correctly in humans it can result in the syndromes
heterotaxy
Situs ambiguus is a rare congenital defect in which the major visceral organs are distributed abnormally within the chest and abdomen. Clinically heterotaxy spectrum generally refers to any defect of Left-right asymmetry and arrangement of the vi ...
or
situs inversus
Situs inversus (also called situs transversus or oppositus) is a congenital condition in which the major visceral organs are reversed or mirrored from their normal positions. The normal arrangement of internal organs is known as situs solitus. Al ...
.
LR asymmetry is pervasive throughout all
animal
Animals are multicellular, eukaryotic organisms in the Kingdom (biology), biological kingdom Animalia. With few exceptions, animals Heterotroph, consume organic material, Cellular respiration#Aerobic respiration, breathe oxygen, are Motilit ...
s, including invertebrates. Examples of invertebrate LR asymmetry include the large and small claws of the
fiddler crab
The fiddler crab or calling crab may be any of more than one hundred species of semiterrestrial marine crabs in the family Ocypodidae, well known for their sexually dimorphic claws; the males' major claw is much larger than the minor claw, while ...
, asymmetrical gut coiling in ''
Drosophila melanogaster
''Drosophila melanogaster'' is a species of fly (the taxonomic order Diptera) in the family Drosophilidae. The species is often referred to as the fruit fly or lesser fruit fly, or less commonly the " vinegar fly" or "pomace fly". Starting with ...
,'' and dextral (clockwise) and sinistral (counterclockwise) coiling of
gastropods
The gastropods (), commonly known as snails and slugs, belong to a large taxonomic class of invertebrates within the phylum Mollusca called Gastropoda ().
This class comprises snails and slugs from saltwater, from freshwater, and from land. The ...
. This asymmetry can be restricted to a specific organ or feature, as in the crab claws, or be expressed throughout the entire body as in snails.
Developmental basis
Different species have evolved different mechanisms of LR patterning. For example, cilia are critical for LR patterning in many vertebrate species such as humans, rodents, fish and frog, but other species, such as reptiles, birds and pigs develop LR asymmetry without cilia.
Cilia dependent vertebrates
The name of the LR organiser varies between species, and thus includes the node in mice, the gastrocoel roof plate in frog and Kupffer’s vesicle in zebrafish. In each case the LR organizer is found on the dorsal side of the embryo and each organizer cell has a single cilia located on the posterior side of the cell. The combination of location of cells of the dorsal surface combined with the posterior location of the cilia means that when the cilia rotate it creates a left-ward flow across the surface of the organizer. The flow causes loss of ''Cerl2'' and increased ''Nodal'' expression on the left side of the organizer, although there is some debate whether this occurs due to a chemical/protein signal or due to the cells physically sensing the flow.
In either case, the signal is then transferred to the left
Lateral plate mesoderm
The lateral plate mesoderm is the mesoderm that is found at the periphery of the embryo. It is to the side of the paraxial mesoderm, and further to the axial mesoderm. The lateral plate mesoderm is separated from the paraxial mesoderm by a narrow ...
where it activates a further signalling cascade of genes including ''Nodal'', ''Pitx2'' and ''Lefty2''.
Cilia independent vertebrates
In chickens, LR asymmetry is established at a structure called Hensen’s node. Unlike most other vertebrates, this process is not thought to involve cilia as (i) Hensen’s node does not have motile cilia and (ii) unlike other species, mutations that affect cilia formation do not cause laterality defects in chicken. Instead, chickens establish LR asymmetry through asymmetric cell rearrangements which results in a leftward movement of cells near the Hensen’s node.
Another study has found that pigs do not have cilia within their left right organiser, suggesting pigs also have an alternative cilia independent mechanism for establishing LR asymmetry.
Non-vertebrate deuterostomes
Recently, work has shown that the Nodal-Pitx2 pathway is present and functional in the non-vertebrate
deuterostomes (tunicates, sea urchins).
In tunicate (
ascidian
Ascidiacea, commonly known as the ascidians, tunicates (in part), and sea squirts (in part), is a polyphyletic class in the subphylum Tunicata of sac-like marine invertebrate filter feeders. Ascidians are characterized by a tough outer "tunic" m ...
) ''
Ciona intestinalis'' and ''
Halocynthia roretzi
The sea pineapple (''Halocynthia roretzi'') is an edible ascidian (sea squirt) consumed primarily in Korea, where it is known as ''meongge'' (멍게), and to a lesser extent in Japan, where it is known as or .
Sea pineapples are known for both ...
'', ''Nodal'' is expressed on the left side of the developing embryo and leads to downstream expression of ''Pitx2.'' At earlier stages, similar H+/K+ ATPase ion channels are reported to be necessary for correct left-right patterning.
While the role of cilia here is still unclear, one study observes that large-scale embryonic movements are required for left-right determination in ''H. roretzi,'' and that this movement is possibly achieved through ciliary movements.
In the sea urchin, ''Nodal'' is expressed on the right side of the embryo, in contrast to the tunicate and vertebrate condition on the left side.
Because
protostome
Protostomia () is the clade of animals once thought to be characterized by the formation of the organism's mouth before its anus during embryogenesis, embryonic development. This nature has since been discovered to be extremely variable among Pro ...
s appear to also express ''Nodal'' on their right side instead of the left (discussed below), some have suggested that this lends further evidence for the dorsoventral
inversion hypothesis.
[Coutelis, J. B., González‐Morales, N., Géminard, C., & Noselli, S. (2014). Diversity and convergence in the mechanisms establishing L/R asymmetry in metazoa. ''EMBO Reports'', e201438972.]
Protostomes
Ecdysozoa
While ''D. melanogaster'' and nematode ''
Caenorhabditis elegans'' do show left-right asymmetry, the Nodal signaling pathway itself is absent in Ecdysozoa.
Instead, cytoskeletal regulators such as Myo31DF, a type ID unconventional myosin, have been found to control left-right asymmetry in organ systems such as genitalia.
Lophotrochozoa
Unlike in Ecdysozoa, the Nodal-Pitx2 pathways have been identified in many lineages within the
Lophotrochozoa
Lophotrochozoa (, "crest/wheel animals") is a clade of protostome animals within the Spiralia. The taxon was established as a monophyletic group based on molecular evidence. The clade includes animals like annelids, molluscs, bryozoans, brachi ...
ns.
When found in
brachiopod
Brachiopods (), phylum Brachiopoda, are a phylum of trochozoan animals that have hard "valves" (shells) on the upper and lower surfaces, unlike the left and right arrangement in bivalve molluscs. Brachiopod valves are hinged at the rear end, w ...
s and molluscs, these genes are asymmetrically expressed on the right.
Platyhelminthes, annelids, and nermeteans lack a Nodal orthologue and instead only express Pitx2, which was expressed in association to the nervous system.
Whole body left-right asymmetry in gastropods
Whole body inversion is observed as chiral (dextral, sinistral) coiling in gastropods. While dextral coiling is the most common as it appears in 90-99% of living species, sinistral species still have arisen many times.
Developmental basis of shell coiling
Gastropods undergo
spiral cleavage
In embryology, cleavage is the division of cells in the early development of the embryo, following fertilization. The zygotes of many species undergo rapid cell cycles with no significant overall growth, producing a cluster of cells the same size ...
, a feature commonly seen in lophotrochozoans. As the embryo divides, quartets of cells are oriented at angles to each other. In the snail ''Lymnaea stagnalis'', the direction of rotation during the first cell division signals whether the adult will show dextral or sinistral coiling,
At the third cleavage (8-cell stage), spindles in dextral snails are inclined clockwise whereas they are counterclockwise in sinistral snails.
Furthermore, injecting ''L. peregra'' sinistral eggs with the cytoplasm of dextral eggs before the second polar body formation will reverse the polarity of the sinistral embryos.
These data show that chirality is heritable and maternally deposited in ''Lymnaea''.
Several studies have begun to investigate the molecular basis of this inheritance. ''Nodal'' and ''Pitx2'' are expressed on different sides of the ''L. stagnalis'' embryo depending on its chirality – right for dextral, left for sinistral. Downstream of ''Nodal, decapentaplegic (dpp),'' shows the same expression pattern.
In limpets (gastropods without coiled shells) ''dpp'' is expressed symmetrically in ''Patella vulgata'' and ''Nipponacmea fuscoviridis''.
Additionally, in ''N. fuscoviridis'', ''dpp'' has been shown to drive cell proliferation
Upstream of Nodal, ''Lsdia1/2'' have been implicated in controlling ''L. stagnalis'' chirality.
Davison et al. (2016) mapped the “chirality locus” to a 0.4 Mb region and determined that ''Lsdia2'' is the likely candidate for determining dextral or sinistral coiling.
This is a diaphanous-related formin gene involved in cytoskeleton formation.
Dextral embryos treated with drugs that inhibited formin activity phenocopied the sinistral condition. Concurrent work from Kuroda et al. (2016) identified the same ''Lsdia2'' gene (called ''Lsdia1'' in their study) but failed to reproduce the formin inhibition results in the Davison et al. study.
Additionally, Kuroda et al. (2016) did not find asymmetrically expressed ''Lsdia2'' as was seen in the Davison et al. (2016) study.
See also
*
Symmetry breaking and cortical rotation
Symmetry breaking in biology is the process by which uniformity is broken, or the number of points to view invariance are reduced, to generate a more structured and improbable state. That is to say, symmetry breaking is the event where symmetry ...
References
{{reflist
Asymmetry
Animal anatomy