Lefty (left-right determination factors) are a class of

protein Proteins are large biomolecules and macromolecules that comprise one or more long chains of amino acid residues. Proteins perform a vast array of functions within organisms, including catalysing metabolic reactions, DNA replication, res ...

s that are closely related members of the

TGF-beta Transforming growth factor beta (TGF-β) is a multifunctional cytokine belonging to the transforming growth factor superfamily that includes three different mammalian isoforms (TGF-β 1 to 3, HGNC symbols TGFB1, TGFB2, TGFB3) and many other ...

superfamily of growth factors. These proteins are secreted and play a role in

left-right asymmetry Left-right asymmetry, (LR asymmetry) is the process in early embryonic development that breaks the normal symmetry in the bilateral embryo. In vertebrates, left-right asymmetry is established early in development at a structure called the left-ri ...

determination of organ systems during

development Development or developing may refer to: Arts *Development hell, when a project is stuck in development *Filmmaking, development phase, including finance and budgeting *Development (music), the process thematic material is reshaped * Photograph ...

. Mutations of the genes encoding these proteins have been associated with left-right axis malformations, particularly in the

heart The heart is a muscular Organ (biology), organ in most animals. This organ pumps blood through the blood vessels of the circulatory system. The pumped blood carries oxygen and nutrients to the body, while carrying metabolic waste such as ca ...

and

lungs The lungs are the primary organs of the respiratory system in humans and most other animals, including some snails and a small number of fish. In mammals and most other vertebrates, two lungs are located near the backbone on either si ...

History

Lefty, a divergent member of the transforming growth factor-β (

TGF beta Transforming growth factor beta (TGF-β) is a multifunctional cytokine belonging to the transforming growth factor superfamily that includes three different mammalian isoforms (TGF-β 1 to 3, HGNC symbols TGFB1, TGFB2, TGFB3) and many other ...

) superfamily of proteins, was originally discovered in the Hamada lab at the

Osaka University , abbreviated as , is a public research university located in Osaka Prefecture, Japan. It is one of Japan's former Imperial Universities and a Designated National University listed as a "Top Type" university in the Top Global University Project. ...

using deletion screening of

cDNA In genetics, complementary DNA (cDNA) is DNA synthesized from a single-stranded RNA (e.g., messenger RNA (mRNA) or microRNA (miRNA)) template in a reaction catalyzed by the enzyme reverse transcriptase. cDNA is often used to express a sp ...

libraries in P19 embryonic carcinoma cells to find clones that did not differentiate when induced to differentiate using retinoic acid. From these screens, researchers found one gene that was a tentative member of the TGF-beta superfamily that was predominantly expressed on the left side the

embryo An embryo is an initial stage of development of a multicellular organism. In organisms that reproduce sexually, embryonic development is the part of the life cycle that begins just after fertilization of the female egg cell by the male spe ...

and aptly named it lefty. Like other members of the TGF-beta superfamily, lefty is synthesized as a

preproprotein A protein precursor, also called a pro-protein or pro-peptide, is an inactive protein (or peptide) that can be turned into an active form by post-translational modification, such as breaking off a piece of the molecule or adding on another molecul ...

, meaning that the protein is proteolytically cleaved and excreted to produce the active form of the protein. However, lefty has only 20-25% sequence similarity with other members of the TGF-beta superfamily. Lefty is conserved in all vertebrates and many species have more than one homologue. Humans and mice, for instance have two homologues, Lefty 1 and Lefty 2, whose differential expression leads to distinct purposes while the mechanism of action is conserved.

Function

Lefty proteins function as an antagonist of the

Nodal Signaling The Nodal signaling pathway is a signal transduction pathway important in regional and cellular differentiation during embryonic development. The Nodal family of proteins, a subset of the transforming growth factor beta (TGFβ) superfamily, is ...

pathway. Nodal is another signaling protein which is responsible for gastrulation, left-right patterning and induction of the primitive node. As NODAL protein diffuse through an embryo, it triggers

within tissues with the required receptors and coreceptors. Activated nodal signaling leads to the transcription of the lefty gene. The protein is then expressed, proteolytically cleaved, and finally secreted. Secreted lefty binds to EGF-CFC proteins like one-eyed pinhead in

zebrafish The zebrafish (''Danio rerio'') is a freshwater fish belonging to the minnow family (Cyprinidae) of the order Cypriniformes. Native to South Asia, it is a popular aquarium fish, frequently sold under the trade name zebra danio (and thus often ca ...

keeping the essential cofactor from associating with NODAL/ Activin-like receptor complex. This will effectually block

. During induction of the primitive streak, lefty confines Nodal activity to the posterior end of the embryo, establishing a posterior signaling center and inducing the formation of the primitive streak and

mesoderm The mesoderm is the middle layer of the three germ layers that develops during gastrulation in the very early development of the embryo of most animals. The outer layer is the ectoderm, and the inner layer is the endoderm.Langman's Medical Emb ...

.Carlson, Bruce M. "Formation of Germ Layers and Early Derivatives." Human Embryology and Developmental Biology. Philadelphia, Pennsylvania: Mosby/Elsevier, 2009. 91-95. Print. (See

TGF beta signaling pathway The transforming growth factor beta (TGFB) signaling pathway is involved in many cellular processes in both the adult organism and the developing embryo including cell growth, cell differentiation, cell migration, apoptosis, cellular homeostasis an ...

for more information on the nodal signaling pathway.) There are many differences between the left and right sides, including heart and lung positioning. Mutations in these genes cause incorrect positioning of these organs (e.g., situs inversus), or in the case of constitutively inactive lefty, the embryo becomes entirely mesoderm and fails to pattern or develop. During vertebrate development, lefty proteins regulate left-right asymmetry by controlling the spatiotemporal influence of the NODAL protein. Lefty1 in the ventral midline prevents the Cerberus (paracrine factor or "Caronte") signal from passing to the right side of the embryo. This spatiotemporal control is achieved by using two sources of excreted lefty. While lefty is produced in response to activated nodal signaling, it is also produced and secreted in the anterior visceral

endoderm Endoderm is the innermost of the three primary germ layers in the very early embryo. The other two layers are the ectoderm (outside layer) and mesoderm (middle layer). Cells migrating inward along the archenteron form the inner layer of the gast ...

(AVE). The balance of lefty from the AVE and from

results in the patterning of the embryo and left-right asymmetry.

Clinical significance

Proper functioning of Lefty is crucial to the proper development of the heart, lungs, spleen, and liver. Mutations in Lefty, called Lefty-A, are associated with left-right patterning defects. This mutation may cause congenital heart defects due to malformation, interrupted inferior vena cava, and lack of lung asymmetry (left pulmonary isomerism). Lefty2 may play a role in endometrial bleeding.

Lefty-1

Lefty-1 is a regulatory gene that plays a vital role in the determination of the left-right internal asymmetry observed in mammals. The lefty-1 protein works in tandem with two other genes: lefty-2 and nodal. As the primitive node migrates towards the cranial end of the embryo during development, its cilia preferentially sling lefty-2 and nodal towards the left side of the embryo. These two genes encode for “leftness”, and initiate the formation of the heart, spleen, and other internal organs that are found on the left side in a typical human being. Lefty-1 protein can be viewed as a barrier between the left and right portions of the embryo that prevents the diffusion of lefty-2 and nodal to the right side. This ensures that the left-determining molecules are confined to their correct developmental domain. A variety of defects were observed in mice that had lefty-1 deleted, including left pulmonary isomerism, situs inversus, and atrial septal defect ^{/sup>. The high incidence of left pulmonary isomerism in the knockout mice indicates that lefty-1 itself is not involved in encoding for leftness, but simply ensures the correct compartmentation of the left-determining molecules. In the absence of the lefty-1 barrier, lefty-2 and nodal are free to diffuse to the right side and initiate the development of a left lung that was meant to be limited to the left side of the thoracic cavity.

References

Further reading

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{{Use dmy dates, date=April 2017

Developmental genes and proteins
TGFβ domain
Osaka University research}