The immortal DNA strand hypothesis was proposed in 1975 by John Cairns as a mechanism for

adult stem cells Adult stem cells are undifferentiated cells, found throughout the body after development, that multiply by cell division to replenish dying cells and regenerate damaged tissues. Also known as somatic stem cells (from Greek σωματικóς, ...

to minimize

mutations In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA or viral replication, m ...

in their genomes. This hypothesis proposes that instead of segregating their DNA during

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 maintai ...

in a random manner, adult stem cells divide their DNA asymmetrically, and retain a distinct template set of DNA strands (parental strands) in each division. By retaining the same set of template DNA strands, adult stem cells would pass mutations arising from errors in

DNA replication In molecular biology, DNA replication is the biological process of producing two identical replicas of DNA from one original DNA molecule. DNA replication occurs in all living organisms acting as the most essential part for biological inheritan ...

on to non-stem cell daughters that soon terminally differentiate (end mitotic divisions and become a functional cell). Passing on these replication errors would allow adult stem cells to reduce their rate of accumulation of mutations that could lead to serious

genetic disorder A genetic disorder is a health problem caused by one or more abnormalities in the genome. It can be caused by a mutation in a single gene (monogenic) or multiple genes (polygenic) or by a chromosomal abnormality. Although polygenic disorders ...

s such as

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 ...

. Although evidence for this mechanism exists, whether it is a mechanism acting in adult stem cells

in vivo Studies that are ''in vivo'' (Latin for "within the living"; often not italicized in English) are those in which the effects of various biological entities are tested on whole, living organisms or cells, usually animals, including humans, and p ...

is still controversial.

Methods

Two main

assay An assay is an investigative (analytic) procedure in laboratory medicine, mining, pharmacology, environmental biology and molecular biology for qualitatively assessing or quantitatively measuring the presence, amount, or functional activity of ...

s are used to detect immortal DNA strand segregation: label-retention and label-release pulse/chase assays. In the label-retention assay, the goal is to mark 'immortal' or parental DNA strands with a DNA label such as tritiated

thymidine Thymidine (symbol dT or dThd), also known as deoxythymidine, deoxyribosylthymine, or thymine deoxyriboside, is a pyrimidine deoxynucleoside. Deoxythymidine is the DNA nucleoside T, which pairs with deoxyadenosine (A) in double-stranded DNA. ...

bromodeoxyuridine Bromodeoxyuridine (5-bromo-2'-deoxyuridine, BrdU, BUdR, BrdUrd, broxuridine) is a synthetic nucleoside analogue with a chemical structure similar to thymidine. BrdU is commonly used to study cell proliferation in living tissues and has been stud ...

(BrdU). These types of DNA labels will incorporate into the newly synthesized DNA of dividing cells during

S phase S phase (Synthesis Phase) is the phase of the cell cycle in which DNA is replicated, occurring between G1 phase and G2 phase. Since accurate duplication of the genome is critical to successful cell division, the processes that occur during ...

. A pulse of DNA label is given to adult stem cells under conditions where they have not yet delineated an immortal DNA strand. During these conditions, the adult stem cells are either dividing ''symmetrically'' (thus with each division a new 'immortal' strand is determined and in at least one of the stem cells the immortal DNA strand will be marked with DNA label), or the adult stem cells have ''not yet been determined'' (thus their precursors are dividing symmetrically, and once they differentiate into adult stem cells and choose an 'immortal' strand, the 'immortal strand' will already have been marked). Experimentally, adult stem cells are undergoing symmetric divisions during growth and after wound healing, and are not yet determined at neonatal stages. Once the immortal DNA strand is labelled and the adult stem cell has begun or resumed asymmetric divisions, the DNA label is chased out. In symmetric divisions (most

mitotic 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 maintai ...

cells), DNA is segregating randomly and the DNA label will be diluted out to levels below detection after five divisions. If, however, cells are using an immortal DNA strand mechanism, then all the labeled DNA will continue to co-segregate with the adult stem cell, and after five (or more) divisions will still be detected within the adult stem cell. These cells are sometimes called label-retaining cells (LRCs). In the label-release assay, the goal is to mark the newly synthesized DNA that is normally passed on to the daughter (non-stem) cell. A pulse of DNA label is given to adult stem cells under conditions where they are dividing ''asymmetrically.'' Under conditions of

homeostasis In biology, homeostasis ( British also homoeostasis) (/hɒmɪə(ʊ)ˈsteɪsɪs/) is the state of steady internal, physical, and chemical conditions maintained by living systems. This is the condition of optimal functioning for the organism and ...

, adult stem cells should be dividing asymmetrically so that the same number of adult stem cells is maintained in the tissue compartment. After pulsing for long enough to label all the newly replicated DNA, the DNA label is chased out (each DNA replication now incorporates unlabeled nucleotides) and the adult stem cells are assayed for loss of the DNA label after two cell divisions. If cells are using a random segregation mechanism, then enough DNA label should remain in the cell to be detected. If, however, the adult stem cells are using an immortal DNA strand mechanism, they are obligated to retain the unlabeled 'immortal' DNA, and will release all the newly synthesized labeled DNA to their differentiating daughter cells in two divisions. Some scientists have combined the two approaches, by first using one DNA label to label the immortal strands, allowing to adult stem cells to begin dividing asymmetrically, and then using a different DNA label to label the newly synthesized DNA. Thus, the adult stem cells will retain one DNA label and release the other within two divisions.

Evidence

Evidence for the immortal DNA strand hypothesis has been found in various systems. One of the earliest studies by Karl Lark ''et al.'' demonstrated co-segregation of DNA in the cells of plant root tips. Plant root tips labeled with tritiated thymidine tended to segregate their labeled DNA to the same daughter cell. Though not all the labeled DNA segregated to the same daughter, the amount of thymidine-labeled DNA seen in the daughter with less label corresponded to the amount that would have arisen from sister-chromatid exchange. Later studies by Christopher Potten ''et al.'' (2002), using pulse/chase experiments with tritiated thymidine, found long-term label-retaining cells in the small intestinal crypts of neonatal mice. These researchers hypothesized that long-term incorporation of tritiated thymidine occurred because neonatal mice have undeveloped small intestines, and that pulsing tritiated thymidine soon after the birth of the mice allowed the 'immortal' DNA of adult stem cells to be labeled during their formation. These long-term cells were demonstrated to be actively cycling, as demonstrated by incorporation and release of BrdU. Since these cells were cycling but continued to contain the BrdU label in their DNA, the researchers reasoned that they must be segregating their DNA using an immortal DNA strand mechanism. Joshua Merok ''et al.'' from the lab of James Sherley engineered mammalian cells with an inducible

p53 p53, also known as Tumor protein P53, cellular tumor antigen p53 (UniProt name), or transformation-related protein 53 (TRP53) is a regulatory protein that is often mutated in human cancers. The p53 proteins (originally thought to be, and often s ...

gene that controls asymmetric divisions. BrdU pulse/chase experiments with these cells demonstrated that chromosomes segregated non-randomly only when the cells were induced to divide asymmetrically like adult stem cells. These asymmetrically dividing cells provide an ''in vitro'' model for demonstration and investigation of immortal strand mechanisms. Scientists have strived to demonstrate that this immortal DNA strand mechanism exists ''in vivo'' in other types of adult stem cells. In 1996 Nik Zeps published the first paper demonstrating label retaining cells were present in the mouse mammary gland and this was confirmed in 2005 by Gilbert Smith who also published evidence that a subset of mouse mammary epithelial cells could retain DNA label and release DNA label in a manner consistent with the immortal DNA strand mechanism. Soon after, scientists from the laboratory of Derek van der Kooy showed that mice have neural stem cells that are BrdU-retaining and continue to be mitotically active. Asymmetric segregation of DNA was shown using real-time imaging of cells in culture. In 2006, scientists in the lab of Shahragim Tajbakhsh presented evidence that muscle

satellite cells Myosatellite cells, also known as satellite cells, muscle stem cells or MuSCs, are small multipotent cells with very little cytoplasm found in mature muscle. Satellite cells are precursors to skeletal muscle cells, able to give rise to satellite ...

, which are proposed to be

of the

skeletal muscle Skeletal muscles (commonly referred to as muscles) are organs of the vertebrate muscular system and typically are attached by tendons to bones of a skeleton. The muscle cells of skeletal muscles are much longer than in the other types of m ...

compartment, exhibited asymmetric segregation of BrdU-labelled DNA when put into culture. They also had evidence that demonstrated BrdU release kinetics consistent with an immortal DNA strand mechanism were operating ''in vivo'', using juvenile mice and mice with muscle regeneration induced by freezing. These experiments supporting the immortal strand hypothesis, however, are not conclusive. While the Lark experiments demonstrated co-segregation, the co-segregation may have been an artifact of radiation from the tritium. Although Potten identified the cycling, label-retaining cells as adult stem cells, these cells are difficult to identify unequivocally as adult stem cells. While the engineered cells provide an elegant model for co-segregation of chromosomes, studies with these cells were done ''in vitro'' with engineered cells. Some features may not be present ''in vivo'' or may be absent ''in vitro''. In May 2007 evidence in support of the Immortal DNA Strand theory was discovered by Michael Conboy et al., using the muscle stem/satellite cell model during tissue regeneration, where there is tremendous cell division during a relatively brief period of time. Using two BrdU analogs to label template and newly synthesized DNA strands, they saw that about half of the dividing cells in regenerating muscle sort the older "Immortal" DNA to one daughter cell and the younger DNA to the other. In keeping with the stem cell hypothesis, the more undifferentiated daughter typically inherited the chromatids with the older DNA, while the more differentiated daughter inherited the younger DNA. Experimental evidence against the immortal strand hypothesis is sparse. In one study, researchers incorporated tritiated thymidine into dividing murine epidermal basal cells. They followed the release of tritiated thymidine after various chase periods, but the pattern of release was not consistent with the immortal strand hypothesis. Although they found label-retaining cells, they were not within the putative stem cell compartment. With increasing lengths of time for the chase periods, these label-retaining cells were located farther from the putative stem cell compartment, suggesting that the label-retaining cells had moved. However, finding conclusive evidence against the immortal strand hypothesis has proven difficult.

Further models

After Cairns first proposed the immortal DNA strand mechanism, the theory has undergone several updated refinements. In 2002, he proposed that in addition to using immortal DNA strand mechanisms to segregate DNA, when the immortal DNA strands of adult stem cells undergo damage, they will choose to die (apoptose) rather than use DNA repair mechanisms that are normally used in non-stem cells. Emmanuel David Tannenbaum and James Sherley developed a quantitative model describing how repair of

point mutation A point mutation is a genetic mutation where a single nucleotide base is changed, inserted or deleted from a DNA or RNA sequence of an organism's genome. Point mutations have a variety of effects on the downstream protein product—consequence ...

s might differ in adult stem cells. They found that in adult stem cells, repair was most efficient if they used an immortal DNA strand mechanism for segregating DNA, rather than a random segregation mechanism. This method would be beneficial because it avoids wrongly fixing DNA mutations in both DNA strands and propagating the mutation.

Mechanisms

The complete proof of a concept generally requires a plausible mechanism that could mediate the effect. Although controversial, there is a suggestion that this could be provided by the Dynein Motor. This paper is accompanied by a comment summarizing the findings and background. However, this work has highly respected biologists among its detractors as exemplified by a further comment on a paper by the same authors from 2006. The authors have rebutted the criticism.{{cite journal, title=Response to Comment on "Cell Type Regulates Selective Segregation of Mouse Chromosome 7 DNA Strands in Mitosis", first1=Amar J. S., last1=Klar, first2=Athanasios, last2=Armakolas, date=25 August 2006, journal=Science, volume=313, issue=5790, pages=1045, doi=10.1126/science.1128552, pmid=16931739, bibcode=2006Sci...313.1045K, doi-access=free

References

DNA Stem cells Cell biology Developmental biology

Methods

Evidence

Further models

Mechanisms

See also

References