Dedifferentiation (pronounced dē-ˌdi-fə-ˌren-chē-ˈā-shən) is a transient process by which cells become less specialized and return to an earlier cell state within the same
lineage
Lineage may refer to:
Science
* Lineage (anthropology), a group that can demonstrate its common descent from an apical ancestor or a direct line of descent from an ancestor
* Lineage (evolution), a temporal sequence of individuals, populati ...
. This suggests an increase in a
cell potency Pluripotency: These are the cells that can generate into any of the three Germ layers which imply Endodermal, Mesodermal, and Ectodermal cells except tissues like the placenta.
According to Latin terms, Pluripotentia means the ability for many thin ...
, meaning that after dedifferentiation, cells may possess an ability to redifferentiate into more cell types than it did before.
This is in contrast to
differentiation, where differences in
gene expression
Gene expression is the process by which information from a gene is used in the synthesis of a functional gene product that enables it to produce end products, protein or non-coding RNA, and ultimately affect a phenotype, as the final effect. The ...
,
morphology
Morphology, from the Greek and meaning "study of shape", may refer to:
Disciplines
* Morphology (archaeology), study of the shapes or forms of artifacts
* Morphology (astronomy), study of the shape of astronomical objects such as nebulae, galaxies ...
, or physiology arise in a cell, making its function increasingly specialized.
The loss of specialization observed in dedifferentiation can be noted through changes in gene expression, physiology, function, proliferative activity, or morphology. While it can be induced in a laboratory setting through processes like
direct reprogramming and the production of
induced pluripotent stem cell
Induced pluripotent stem cells (also known as iPS cells or iPSCs) are a type of pluripotent stem cell that can be generated directly from a somatic cell. The iPSC technology was pioneered by Shinya Yamanaka's lab in Kyoto, Japan, who showed in ...
s, endogenous dedifferentiation processes also exist as a component of
wound healing
Wound healing refers to a living organism's replacement of destroyed or damaged tissue by newly produced tissue.
In undamaged skin, the epidermis (surface, epithelial layer) and dermis (deeper, connective layer) form a protective barrier again ...
mechanisms.
History
References to dedifferentiation can be found as far back as 1915, where
Charles Manning Child
Charles Manning Child (February 2, 1869 – December 19, 1954) was an American zoologist noted for his work on regeneration at the University of Chicago.
Early life
Child was born on February 2, 1869, in Ypsilanti, Michigan, to Charles Chauncy ...
described dedifferentiation as a “return or approach to the embryonic or undifferentiated condition”. While Manning's research was in reference to plants, it helped establish the foundation for our modern day understanding of dedifferentiation and cell plasticity. Just as plant cells respond to injury by undergoing
callus
A callus is an area of thickened and sometimes hardened skin that forms as a response to repeated friction, pressure, or other irritation. Since repeated contact is required, calluses are most often found on the feet and hands, but they may o ...
formation via dedifferentiation, some animal models dedifferentiate their cells to form
blastema
A blastema (Greek ''βλάστημα'', "offspring") is a mass of cells capable of growth and regeneration into organs or body parts. The changing definition of the word "blastema" has been reviewed by Holland (2021). A broad survey of how blast ...
, which are analogous to plant calluses, after limb amputation.
In the 1940s
C. H. Waddington
Conrad Hal Waddington (8 November 1905 – 26 September 1975) was a British developmental biologist, paleontologist, geneticist, embryologist and philosopher who laid the foundations for systems biology, epigenetics, and evolutionary devel ...
created the “Epigenetic Landscape”, a diagrammatic representation of cell fate from less differentiated to more differentiated cell types. Here, the concept of a marble moving downhill through various paths is used to represent cell decision-making and
cell potency Pluripotency: These are the cells that can generate into any of the three Germ layers which imply Endodermal, Mesodermal, and Ectodermal cells except tissues like the placenta.
According to Latin terms, Pluripotentia means the ability for many thin ...
, thus visualizing how cells can take different paths of differentiation to reach a final state. Dedifferentiation would be represented by the marble moving uphill through the pathways it has already taken, until it settles somewhere above the most downhill location.
In our modern day understanding of dedifferentiation, some controversies remain when defining the boundaries of its definition. Some claim that dedifferentiation is strictly limited to the same cell lineage from which it is derived. However, others say that it can be used to describe a general increase in cell potency.
Mechanisms
The mechanism by which dedifferentiation occurs has not been completely illuminated.
The pathways discussed below are found to be closely related to dedifferentiation and regeneration in some species. Because not one pathway has been elucidated as necessary for all dedifferentiation and regeneration, it is possible that the mechanism functions differently in different species.
Observed markers of dedifferentiation
For dedifferentiation, genes that are in the extracellular matrix play an important role.
For example, MMP,
the matrix metalloproteinase, has shown up-regulated activity during early stages of limb regeneration.
Matrix Metalloproteinases are responsible for degradation of both non-matrix and matrix proteins.
MMP degrades proteins in the extracellular matri
of a cell, resulting in the destabilization of the differentiated cell identity.
However, the markers selected to represent dedifferentiation can differ according to tissue and cell types that are being studied. For example, in mice
myotube
Myogenesis is the formation of skeletal muscular tissue, particularly during embryonic development.
Muscle fibers generally form through the fusion of precursor myoblasts into multinucleated fibers called ''myotubes''. In the early development ...
s, dedifferentiation is marked by a decreased expression of
Myogenin
Myogenin, is a transcriptional activator encoded by the MYOG gene.
Myogenin is a muscle-specific basic-helix-loop-helix (bHLH) transcription factor involved in the coordination of skeletal muscle development or myogenesis and repair. Myogenin is ...
, a protein present in differentiated myotubes.
Involved Pathways
Some of the pathways that have shown interaction in dedifferentiation are
MSX1
Homeobox protein MSX-1, is a protein that in humans is encoded by the ''MSX1'' gene. MSX1 transcripts are not only found in thyrotrope-derived TSH cells, but also in the TtT97 thyrotropic tumor, which is a well differentiated hyperplastic tissue ...
,
Notch 1
Neurogenic locus notch homolog protein 1 (Notch 1) is a protein encoded in humans by the ''NOTCH1'' gene. Notch 1 is a single-pass transmembrane receptor.
Function
This gene encodes a member of the Notch family. Members of this Type 1 transme ...
,
BMP, and
Wnt/β-Catenin.
MSx
a gene that is a member of the homeobo
family, encodes a transcriptional
repressor
In molecular genetics, a repressor is a DNA- or RNA-binding protein that inhibits the expression of one or more genes by binding to the operator or associated silencers. A DNA-binding repressor blocks the attachment of RNA polymerase to the ...
that can prevent differentiation in epithelial and mesenchyma
progenitor cell types. This repressor would be able to keep cells undifferentiated during development. Reduced levels of Msx1 expression resulted in inability to regenerate tadpole tails.
Bone Morphogenic Proteins (BM
are a group of signaling molecules involved in growth and development in many systems, including bone,
embryogenesis
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 sperm ...
br>
and homeostasi
The BMP pathway has been shown to be necessary for dedifferentiation and regeneration in tadpoles. Downregulation of the BMP pathway led to a downregulation of MSx1, resulting in no regeneration in the tadpole. Once BMP expression was restored,
Msx1 expression was also restored, and regeneration proceeded.19 Similar studies have shown similar results in mouse digit tip regeneration.
The Notch
pathway has demonstrated importance in regeneration of frog tadpole tails. Notch1 is a gene in the Notch family of proteins. Notch proteins are part of an intercellular signaling pathway responsible for regulating interactions between cells that are physically next to one another by binding to other notch proteins. Lowered Notch1 expression resulted in no tadpole tail regeneration, and induced Notch1 expression was able to partially rescue tail regeneration in the form of notochord and spinal cord (but very little musculature.)
Moreover,
Wnt/
Beta-catenin
Catenin beta-1, also known as beta-catenin (β-catenin), is a protein that in humans is encoded by the ''CTNNB1'' gene.
Beta-catenin is a dual function protein, involved in regulation and coordination of cell–cell adhesion and gene transcripti ...
activation has shown promising results in its involvement with dedifferentiation. In both a human epithelial cell transplant into mice and in vitro epithelial cell model, the activated canonical
Wnt signaling pathway was found to be necessary for dedifferentiation.
When in conjunction with
Nanog, the canonical
Wnt pathway also induced partial dedifferentiation in zebrafish endothelial cells, as seen by an increase in
cell cycle
The cell cycle, or cell-division cycle, is the series of events that take place in a cell that cause it to divide into two daughter cells. These events include the duplication of its DNA (DNA replication) and some of its organelles, and subs ...
re-entry and loss of
cellular adhesion
Cell adhesion is the process by which cells interact and attach to neighbouring cells through specialised molecules of the cell surface. This process can occur either through direct contact between cell surfaces such as cell junctions or indire ...
.
Plasticity
Cell plasticit
is the idea that cells can switch phenotypes in response to environmental cues.
In the context of regeneration, this environmental cue is damage or injury to a limb.
Cell plasticity is closely related to dedifferentiation, as it implies that a cell with ‘plasticity’ can dedifferentiate to change phenotypes.
Cell plasticity suggests that cells can change phenotypes slightly; not fully de-differentiating, in order to serve a better function.
A strong example of this is lens regeneratio
in the newt.
Vertebrates
Across various vertebrate models that have been used to study cell behavior during
wound healing
Wound healing refers to a living organism's replacement of destroyed or damaged tissue by newly produced tissue.
In undamaged skin, the epidermis (surface, epithelial layer) and dermis (deeper, connective layer) form a protective barrier again ...
, dedifferentiation is consistently reflected by changes in gene expression, morphology, and proliferative activity that distinguish it from its previously terminally differentiated state.
Zebrafish (''
Danio rerio
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 ...
'')
Upon injury, zebrafish cardiomyocytes have been found to have the capability to differentiate and subsequently rapidly proliferate as a
wound healing
Wound healing refers to a living organism's replacement of destroyed or damaged tissue by newly produced tissue.
In undamaged skin, the epidermis (surface, epithelial layer) and dermis (deeper, connective layer) form a protective barrier again ...
response.
Specifically, resection of up to 20% of the zebrafish
ventricle regenerates via the proliferation of already differentiated
cardiomyocyte
Cardiac muscle (also called heart muscle, myocardium, cardiomyocytes and cardiac myocytes) is one of three types of vertebrate muscle tissues, with the other two being skeletal muscle and smooth muscle. It is an involuntary, striated muscle that ...
. The cardiomyocytes dedifferentiation is observed through detachment from other cells as well as changes in morphology.
Mice
In mouse
myotube
Myogenesis is the formation of skeletal muscular tissue, particularly during embryonic development.
Muscle fibers generally form through the fusion of precursor myoblasts into multinucleated fibers called ''myotubes''. In the early development ...
s, dedifferentiation was induced upon the suppression of two
tumor suppressor genes
A tumor suppressor gene (TSG), or anti-oncogene, is a gene that regulates a cell during cell division and replication. If the cell grows uncontrollably, it will result in cancer. When a tumor suppressor gene is mutated, it results in a loss or red ...
, encoding the
retinoblastoma protein
The retinoblastoma protein (protein name abbreviated pRb; gene name abbreviated ''Rb'', ''RB'' or ''RB1'') is a proto-oncogenic tumor suppressor protein that is dysfunctional in several major cancers. One function of pRb is to prevent excessive ...
and alternative reading frame protein. These murine primary myotube cells then exhibited a decrease in differentiated cardiomyocyte gene expression, an increase in
proliferation, and a change in morphology.
Moreover, mouse
Schwann cell
Schwann cells or neurolemmocytes (named after German physiologist Theodor Schwann) are the principal glia of the peripheral nervous system (PNS). Glial cells function to support neurons and in the PNS, also include satellite cells, olfactory ensh ...
s were shown to have a capability to differentiate when the
Ras/Raf/ERK pathway is activated. In this study, the addition of
Ras
Ras or RAS may refer to:
Arts and media
* RAS Records Real Authentic Sound, a reggae record label
* Rundfunk Anstalt Südtirol, a south Tyrolese public broadcasting service
* Rás 1, an Icelandic radio station
* Rás 2, an Icelandic radio stati ...
blocks Schwann cell differentiation and induces dedifferentiation. A decrease in
Schwann cell
Schwann cells or neurolemmocytes (named after German physiologist Theodor Schwann) are the principal glia of the peripheral nervous system (PNS). Glial cells function to support neurons and in the PNS, also include satellite cells, olfactory ensh ...
gene expression marks this transition. After dedifferentiation, new cells can be generated by re-entering the
cell cycle
The cell cycle, or cell-division cycle, is the series of events that take place in a cell that cause it to divide into two daughter cells. These events include the duplication of its DNA (DNA replication) and some of its organelles, and subs ...
and
proliferating, then redifferentiating to
myelinate
Myelin is a lipid-rich material that surrounds nerve cell axons (the nervous system's "wires") to Insulator (electricity), insulate them and increase the rate at which electrical impulses (called action potentials) are passed along the axon. The ...
the mice neurons.
Urodeles
Salamanders, including
newt
A newt is a salamander in the subfamily Pleurodelinae. The terrestrial juvenile phase is called an eft. Unlike other members of the family Salamandridae, newts are semiaquatic, alternating between aquatic and terrestrial habitats. Not all aqua ...
s and
axolotl
The axolotl (; from nci, āxōlōtl ), ''Ambystoma mexicanum'', is a paedomorphic salamander closely related to the tiger salamander. Axolotls are unusual among amphibians in that they reach adulthood without undergoing metamorphosis. Instea ...
s, are species with the most known regenerative abilities.
Adult newts can regenerate limbs, tail, upper and lower jaws, spinal cord, retinas, lenses, optic nerves, intestine, and a portion of its heart ventricle
Axolotls share the same abilities, save the retina and lens. These animals are important to the study of dedifferentiation because they use dedifferentiation to create new
progenitor cell
A progenitor cell is a Cell (biology), biological cell that can Cellular differentiation, differentiate into a specific cell type. Stem cells and progenitor cells have this ability in common. However, stem cells are less specified than progenitor ...
s. This is different from mammalian regeneration, because mammals use preexisting
stem cell
In multicellular organisms, stem cells are undifferentiated or partially differentiated cells that can differentiate into various types of cells and proliferate indefinitely to produce more of the same stem cell. They are the earliest type o ...
s to replace lost tissues.
Dedifferentiation in the newt occurs 4–5 days after limb amputation and is characterized by
cell cycle
The cell cycle, or cell-division cycle, is the series of events that take place in a cell that cause it to divide into two daughter cells. These events include the duplication of its DNA (DNA replication) and some of its organelles, and subs ...
re-entry and down-regulation of differentiation markers.
cell differentiation
Cellular differentiation is the process in which a stem cell alters from one type to a differentiated one. Usually, the cell changes to a more specialized type. Differentiation happens multiple times during the development of a multicellula ...
is determined by what genes the cell expresses, and down-regulation of this expression would make for a less, or “un”, differentiated cell. Re-entry into the cell cycle allows the cell to go through
mitosis
In cell biology, mitosis () is a part of the cell cycle in which replicated chromosomes are separated into two new nuclei. Cell division by mitosis gives rise to genetically identical cells in which the total number of chromosomes is mainta ...
, dividing to make more cells that would be able to provide new tissue. It has been observed that
actinomycin D
Dactinomycin, also known as actinomycin D, is a chemotherapy medication used to treat a number of types of cancer. This includes Wilms tumor, rhabdomyosarcoma, Ewing's sarcoma, trophoblastic neoplasm, testicular cancer, and certain types of ovari ...
prevents dedifferentiation in newts
Invertebrates
It is less common to find examples of dedifferentiation (due to a lack of regenerative ability) in most invertebrates. This brief example outlines dedifferentiation in an invertebrate species, and interestingly involves the Msx pathway, as detailed above in the mechanisms section.
Lancelet
Upon amputation,
lancelet
The lancelets ( or ), also known as amphioxi (singular: amphioxus ), consist of some 30 to 35 species of "fish-like" benthic filter feeding chordates in the order Amphioxiformes. They are the modern representatives of the subphylum Cephalochorda ...
tails healed and formed a
blastema
A blastema (Greek ''βλάστημα'', "offspring") is a mass of cells capable of growth and regeneration into organs or body parts. The changing definition of the word "blastema" has been reviewed by Holland (2021). A broad survey of how blast ...
br>
structure, suggesting dedifferentiation of cells to prepare for regeneration
Lancelets can regenerate anterior and posterior structures, including
neural tube
In the developing chordate (including vertebrates), the neural tube is the embryonic precursor to the central nervous system, which is made up of the brain and spinal cord. The neural groove gradually deepens as the neural fold become elevated, a ...
,
notochord
In anatomy, the notochord is a flexible rod which is similar in structure to the stiffer cartilage. If a species has a notochord at any stage of its life cycle (along with 4 other features), it is, by definition, a chordate. The notochord consis ...
, fin, and muscle
The blastema that is formed expresses
PAX3
The PAX3 (paired box gene 3) gene encodes a member of the paired box or PAX family of transcription factors. The PAX family consists of nine human (PAX1-PAX9) and nine mouse (Pax1-Pax9) members arranged into four subfamilies. Human PAX3 and mouse ...
and
PAX7
Paired box protein Pax-7 is a protein that in humans is encoded by the ''PAX7'' gene.
Function
Pax-7 plays a role in neural crest development and gastrulation, and it is an important factor in the expression of neural crest markers such as Slug ...
, which is associated with activation of muscle stem cells.
This specific invertebrate model seems to be limited in its dedifferentiation abilities with size and age. The older and larger the animal is, the less apt it i
for dedifferentiation.
Other Terms Related to Dedifferentiation
Anaplasia
Anaplasia
Anaplasia (from grc, ἀνά ''ana'', "backward" + πλάσις ''plasis'', "formation") is a condition of cells with poor cellular differentiation, losing the morphological characteristics of mature cells and their orientation with respect to e ...
is defined as cells being in an undifferentiated state and it is often associated with
cancer
Cancer is a group of diseases involving abnormal cell growth with the potential to invade or spread to other parts of the body. These contrast with benign tumors, which do not spread. Possible signs and symptoms include a lump, abnormal b ...
. Often this loss of mature cell markers or morphology can be due to dedifferentiation,
but it is sometimes used to refer to cells with incomplete differentiation presenting large variety in size and shape.
While its definition can be conflated with dedifferentiation, it is more often perceived as a loss of differentiation leading to abnormal cell activity, including but not limited to
tumorigenesis
Carcinogenesis, also called oncogenesis or tumorigenesis, is the formation of a cancer, whereby normal cells are transformed into cancer cells. The process is characterized by changes at the cellular, genetic, and epigenetic levels and abno ...
. However, dedifferentiation is often perceived as a reversion to a different cell type for regenerative purposes. In anaplastic cells, there is often an increase in proliferation and abnormal cellular organization,
characteristics that are also present in dedifferentiated cells.
Undifferentiation
Undifferentiated cells have not completed differentiation or specialization, thus retaining their cell potency and oftentimes being highly proliferative.
This is often the final cell state after the dedifferentiation process is completed and maintained, as cells become less specialized.
Metaplasia
Metaplasia
Metaplasia ( gr, "change in form") is the transformation of one differentiated cell type to another differentiated cell type. The change from one type of cell to another may be part of a normal maturation process, or caused by some sort of abno ...
br>
is not another definition of dedifferentiation, but the two words have very similar implications for cells. Metaplasia refers to the change from a fully differentiated cell type to another. This implies that the cell is able to adapt to environmental stimuli, and that it is possible to reverse embryological commitments in the form of differentiation.
The idea of metaplasia depends on the ability for a cell to dedifferentiate.
This definition is important to consider when discussing dedifferentiation because the two concepts overlap closely, such that metaplasia may rely on dedifferentiation, or they may share similar pathways. Metaplasia, however, aligns more closely with
transdifferentiation
Transdifferentiation, also known as lineage reprogramming, is the process in which one mature somatic cell is transformed into another mature somatic cell without undergoing an intermediate pluripotent state or progenitor cell type. It is a type ...
, because metaplasia refers more to the idea of a phenotypic transition.
Transdifferentiation
Transdifferentiation
Transdifferentiation, also known as lineage reprogramming, is the process in which one mature somatic cell is transformed into another mature somatic cell without undergoing an intermediate pluripotent state or progenitor cell type. It is a type ...
br>
refers to the conversion of one cellular phenotype to another.
This phrase defines the overview of what dedifferentiation contributes to cell fates; firstly, dedifferentiation brings the cell back up the epigenetic landscape,
and then the cell can “roll” down a new valley, thus re-differentiating into a new phenotype. This whole process of the cell fate changing from its original to a new fate is transdifferentiation. However, there is also a second definition of transdifferentiation, in which cells can be directly induced into a new cell type without necessitating dedifferentiation as an intermediate step.
Current Research and Future Implications
Currently, studies and experiments are being done to test for dedifferentiation-like abilities in mammalian cells, with hopes that this information can provide more insight into possible regenerative abilities in mammals.
Dedifferentiation could spark innovation in regenerative medicine because it suggests that one's own cells can change cell fates, which would remove immunological response risks from treatment with
Allotransplantation, allogeneic cells, or cells that are not genetically matched with the patient. A concept that has been explored for mammals is that of
inducible dedifferentiation, which would make cells that do not naturally dedifferentiate be able to revert to a
pluripotent Pluripotency: These are the cells that can generate into any of the three Germ layers which imply Endodermal, Mesodermal, and Ectodermal cells except tissues like the placenta.
According to Latin terms, Pluripotentia means the ability for many thin ...
or progenitor-like state. This is achieved by expressing the appropriate
transcription factor
In molecular biology, a transcription factor (TF) (or sequence-specific DNA-binding factor) is a protein that controls the rate of transcription of genetic information from DNA to messenger RNA, by binding to a specific DNA sequence. The fu ...
s in the cell and suppressing others. More information about this as well as the possible risks can be found her
.
See also
*
Pluripotency (biological compounds), Pluripotency
References
{{reflist
Cells
Cell biology
Stem cells