CNIC scientists discover a new mechanism for the transfer of maternal genetic material

October 03, 2019

Madrid, Thursday, October 3, 2019. Researchers at the Centro Nacional de Investigadores Cardiovasculares (CNIC) have defined how dynamic is the process of transfer of mitochondrial DNA, a type of genetic material, from mothers to their offspring. The study is published today in Cell Metabolism. Using experimental mouse models, the research team, led by Dr José Antonio Enríquez, found that when the mother's cells contain more than one variant of mitochondrial DNA, this genetic transfer from mother to pup is controlled by two mechanisms: first during the development of the egg (oocyte), and later during the early stages of embryonic development. The scientists explained that "this control is aimed to prevent the co-occurrence of various types of mitochondrial DNAs in the new individual," which can lead to the development of mitochondrial diseases.

In the study, also participated investigators of the University of Helsinki (Dr. Suomalainen), Imperial College London (Dr. Jones), University of Birmingham (Dr. Johnston), 7CIC biomaGUNE (Dr. Ruiz-Cabello) and other CNIC groups (Dr. Torres)

The information provided in the new study is important for two reasons. First, explained Dr Latorre-Pellicer, because "understanding the mechanisms that regulate the segregation of the mitochondrial genome is necessary for the development of strategies to prevent mother-to-child transfer of mutated mitochondrial DNA that cause mitochondrial diseases."

In addition, explained Dr Lechuga-Vieco, the new findings "will likewise help us to devise ways to prevent different types of mitochondrial DNA co-occurring in the same cell as an unwanted result of medical interventions; this phenomenon, known as heteroplasmy, is a potential risk in mitochondrial replacement therapy."

Of the more than 20,000 human genes, 37 are found not in the cell nucleus, but in the mitochondria, small organelles that function as energy factories. This small genome, which we inherit exclusively from our mothers, is called mitochondrial DNA. Like its nuclear counterpart, the mitochondrial genome shows genetic variation between populations, both in mice and in humans.

Mitochondrial DNA

Unlike nuclear DNA, mitochondrial DNA is present in multiple copies in each cell, is of exclusively maternal inheritance, and does not undergo recombination during its transfer from generation to generation. Nevertheless, mitochondrial DNA has a high frequency of mutations, and this can generate distinct non-pathological population variants of the mitochondrial genome, called haplotypes. Normally, all mitochondrial DNA copies in an individual are essentially identical and derive from the successive copying of the copies inherited from the mother.

Dr Enríquez said that, despite this, "it is not uncommon for a mix of mitochondrial DNA variants to coexist in the same cell, a situation known as heteroplasmy. However, in nature, this phenomenon is opposed by several mechanisms."

First, "the paternal mitochondrial DNA in the sperm is actively degraded once the oocyte is fertilized. Moreover, the development of future oocytes produces a 'bottleneck' that reduces the possibility of heteroplasmy. On rare occasions, these processes can fail, producing heteroplasmic individuals."

Heteroplasmy can also be caused by new medical technologies for mitochondrial replacement, and recent studies in patients suggest that very low levels of heteroplasmy may be more common than previously thought.

Mitochondrial replacement technology has the potential to prevent the transfer of disease associated with mitochondrial DNA. This therapeutic approach, aimed at preventing the transmission of pathological mutations to children, involves replacing the mother's mitochondria with mitochondria from a healthy donor. Being very promising, the research team emphasized that the application of this technology, associated in the popular imagination with 'children of three parents', requires a deep understanding of the physiological relevance of mitochondrial DNA variability.

The research led by Dr Enríquez provides highly valuable information in this regard. The researchers used mice that have two mitochondrial haplotypes stably coexisting is every cell, a situation that is transferred from generation to generation. Using these mice, the team was able to study the selection of non-pathological mitochondrial DNA variants during maternal inheritance.

"We saw that, during oocyte maturation, one or other of the mitochondrial DNA variants is selected. And we also detected a second round of selection later, during early embryonic development. These findings reveal the complex mechanisms underlying the decision to select one mitochondrial genome or another, and the reason for this choice."

The study also shows that heteroplasmy can alter the metabolism of embryonic cells, inducing increased mitochondrial production of reactive oxygen species. This produces changes in the morphology of the inner mitochondrial membrane and in the molecular machinery for energy production.
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About the CNIC

The Centro Nacional de Investigaciones Cardiovasculares (CNIC), directed by Dr. Valentín Fuster, is dedicated to cardiovascular research and the translation of knowledge gained into real benefits for patients. The CNIC, recognized by the Spanish government as a Severo Ochoa center of excellence, is financed through a pioneering public-private partnership between the government (through the Carlos III Institute of Health) and the Pro-CNIC Foundation, which brings together 13 of the most important Spanish private companies.

Centro Nacional de Investigaciones Cardiovasculares Carlos III (F.S.P.)

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