A baby born in April 2016 may have opened the door to a new world of reproductive medicine. This boy became one of the first intentional three-parent babies. The vast majority of this boys DNA came from his mother and his father. A small bit of extra DNA came from an unrelated woman. This child got some of his genetic inheritance from each of these adults.

Because of that bonus DNA from the unrelated woman, some people say babies like this boy have three parents.

Scientists didnt go to all of the effort to mix the DNA from these three people as an experiment. In fact, they did it to overcome a problem in the boys mother. That woman had a problem with her mitochondria (MY-toh-KON-dree-uh). These are important little structures or organelles present in her cells.

Many cells, including those that make up humans, contain special components that function like little organs. That gives rise to their name, organelles, which actually means little organs. Organelles perform special tasks for their parent cells. And one of the more notable of these organelles is the mitochondrion. Its main job is to help power its cell. To do this, the mitochondria harvest energy contained in the bonds linking atoms in the cells fuel (such as glucose). Mitochondria then use that energy to create another molecule, known as ATP (for adenosine triphosphate). That ATP actually serves as the energy source for cells.

Story continues below image

Mitochondria, one of several types of organelles found within the cytoplasm of a cell, contain a small amount of DNA. A mutation in that DNA can cause disease.

ttsz/iStockphoto

But some of the mitochondria in the boys mother have a mutation. That genetic alteration causes Leigh syndrome, a fatal disorder. Most of her mitochondria work properly. That's whythe mom does not have the killer disease. But she can pass on DNA from the faulty mitochondria to her children. And this can put them at risk of Leigh syndrome. Two of her children had already died from the disease. She also had suffered four miscarriages.

It was in hopes of giving this couple a healthy baby that doctors worked to find healthy mitochondria to substitute for her unhealthy ones. Normally, a woman passes on her mitochondria to her offspringthrough her egg (dads sperm dont contribute any). These organelles also contain a small amount of DNA just 37 genes. (Most of the roughly 20,000 protein-producing genes needed to make a human are stored in a compartment called the nucleus.) Mutations in some mitochondrial genes most often pose a risk to organs that need lots of energy, such as the brain and muscles. There is no cure or effective treatment for many of these mitochondrial diseases.

The technique used to create the baby boy is new and controversial. His birth, though, caps nearly three decades of work to to produce healthy human eggs by manipulatingthe organelle. The new baby appears to have been saved from a deadly genetic disease. Still, there are ethical and safety concerns about his three-parent heritage.

And a three-parent baby girl born in January raises even more concerns in part, just because she is a girl.

Researchers first began swapping mitochondria between egg cells to treat infertility problems almost 20 years ago. Jacques Cohen was one of those researchers.

Hes a scientist who studies human embryos. In the late 1990s, he and colleagues at Saint Barnabas Medical Center in Livingston, N.J., were looking for a way to help women who were unable to have children by in vitro fertilization. Also known as IVF, this process involves taking egg cells from a woman and sperm cells from a man, then incubating them in a dish. Some of those eggs and sperm will combine to form embryos the first stages of creating a new individual.

With in vitro fertilization, or IVF, an embryo that developed in a laboratory dish is transferred into a womans womb where it may develop into a baby.

herbap/iStockphoto

Doctors then transfer some of those embryos into the womans womb. With luck, one or more will develop into a baby. But some couples embryos never developed normally. No one knows why. Cohens group thought a dose of cytoplasm the jellylike guts of a cell from a donor egg might give the implanted embryos a better shot at success.

Cytoplasm is the most complicated fluid in the universe, says Cohen. It contains mitochondria, other organelles, proteins and other molecules that do the work of the cell. The mother's egg normally supplies all the goodies an embryo needs to live for the first few steps of development. But Cohen thought that some of his patients eggs might need extra help.

So he extracted 10 to 15 percent of the cytoplasm from an egg donated by another woman. He injected this along with a single sperm cell into a recipient egg. From 1996 to 2001, he performed the procedure 37 times. And this technique proved quite successful. It produced 17 babies for 13 couples!

Cohen later tested eight of the children born this way. Two carried some mitochondria that had come from the donor. That was in addition to some that came from the childs actual mother. Some of the other six children may have had donor mitochondria at levels too low for his tests to see back then, Cohen now says. But the finding made him curious.

So Cohen and his colleagues tracked down 13 of the 17 children. All were now teenagers. In surveys, their parents said that the kids seemed basically healthy. Cohen doesnt know whether mitochondria or other parts of the cytoplasm played a role in producing the children. His group stopped performing the technique in 2001 (because of regulatory issues).

Other scientists have also tried to replace faulty mitochondria more intentionally. The first such attempt in 1983. And it involved mice.

Pronuclei are the central, DNA-containing parts of fertilized eggs. One comes from the egg and another comes from dads sperm. At this early stage in development, the two have not yet fused into a single nucleus. (Nuclei is the plural form of nucleus.)

In a technique known as pronuclear transfer, researchers fertilized the mother mouses egg and a donor egg at the same time. The pronuclei were removed from the donor's fertilized egg and discarded. Those from the mothers fertilized egg were sucked out and then injected into the empty donor egg.

Story continues below image

Pronuclear transfer was the first technique that scientists tried in their attempts to keep diseases due to faulty mitochondria from being passed from a mother to her child.

T. Tibbitts; Third scientific review of the safety and efficacy of methods to avoid mitochondrial disease through assisted conception, Human Fertilisation and Embryology Authority, June 2014

Talk of applying thistechnique in humans promptly raised a few concerns.

Some people claimed that it is not ethical. They argued that it manipulates maybe even destroys two embryos.

Thats one issue. Scientists have a more technical one. They note that mitochondria tend to glom onto the nuclei. So unacceptably high numbers of mitochondria from the mothers egg including disease-carrying ones may still find their way into the donor egg, notes Shoukhrat Mitalipov. He is a mitochondrial biologist at Oregon Health & Science University in Portland.

Last June, scientists reported they had refined pronuclear transfer to reduce the number of disease-carrying mitochondria that could enter embryos. Fewer than 2 percent of the mitochondria from the mothers egg made it into the donors egg. But an earlier study suggested that even a half that amount might be dangerous. Thats because mutant mitochondria may copy themselves. Eventually, they might take over the cell and cripple its energy production.

Fertility clinics in the United Kingdom are allowed to use pronuclear transfer to make human babies where there was a high risk of mitochondrial diseases. In fact, none has done so. yet New York fertility doctor John Zhang is involved in the new baby boys case. He tried the pronuclear-transfer technique with colleagues at Sun-Yat Sen University of Medical Science in Guangzhou, China. That was more than 10 years ago. Five embryos that were made this way were implanted into a 30-year-old woman. Three grew into fetuses. None, however, survived to birth. Zhang published these results last year in Reproductive Biomedicine Online.

In January 2017, doctors in Ukraine announced that a baby girl was born from this method. Her parents had tried IVF. But, like Cohens patients, the couples fertilized eggs never grew into an embryo that could be implanted. Instead of adding cytoplasm from a donor egg as Cohen had, fertility doctor Valery Zukin at the Nadiya Clinic in Kiev instead used pronuclear transfer. And they report success a baby girl.

Labs in Ukraine and Germany confirmed that most of the babys DNA is from her mother and father. Only her mitochondrial DNA comes from an egg donor. Zukin used the same technique again. Another couple is now expecting a baby boy next month.

Some people are concerned that these babies might have health problems later. Some people also may see this as an ethical problem. Why? The technique was not used to prevent mitochondrial diseases, but instead as a type of fertility treatment.

Marcy Darnovsky is one of the critics. She is executive director of the Center for Genetics and Society in Berkeley, Calif. Doctors such as Zukin are selling unproven and possibly dangerous services to customers, she charges. This is the ugly face of commercial and status incentives driving unscientific human experimentation, she said in statement about the baby girls birth.

Doctors used a different technique spindle transfer to produce the baby boy born last April. The bodys genes reside in the DNA found in the bodys 46 different chromosomes. When a cell divides to create egg or sperm cells, it splits those 46 chromosomes into two equal sets of 23. To get portioned out properly, those chromosomes attach themselves to protein fibers. Those fibers are known asspindles. The new transplant technique gets its name from those fibers.

The technique starts with two unfertilized egg cells. One comes from the mother and the other from a donor. In both cells, a membrane surrounding the nucleus has broken down. The spindle in each has not, however, completed a separation of the chromosomes.

Researchers removethe spindle and its attached chromosomes from the donor egg and discardthem. Then they dothe same to the mothers egg except that they keep her spindle and chromosomes. These they injectinto the donors nearly empty egg. Then the researchers add the dads sperm cell into this egg to fertilize it.

Story continues below image

The three-parent baby boy born last year was created using a this technique, called spindle transfer.

T. Tibbitts; Third scientific review of the safety and efficacy of methods to avoid mitochondrial disease through assisted conception, Human Fertilisation and Embryology Authority, June 2014

Mitalipov in Portland pioneered spindle transfer. In 2009 he showed that he could produce healthy baby monkeys with it. Those experiments showed that fewer of the moms mitochondria made it into the donor egg than with pronuclear transfer. Typically, the carryover amounted to 1 percent or less.

But Mitalipov would like to do even better. This 1 percent is haunting us, he says.

Spindle transfer has another possible downside: Chromosomes may fall off the spindle. That could result in an embryo with too few chromosomes or too many if some are left in the egg from the donor. Both cases usually result in abnormal development. Of the five embryos on which Zhang performed spindle transfer, only one developed normally. That was the baby boy born last April.

Tests reportedly found that he has 1 percent of his moms mitochondrial DNA. At 3 months old, he appeared healthy. What his health will look like, long-term, however, is unknown. Besides the risk of even trace levels of mitochondria ballooning, another study suggests that the childs health, over time, might be affected by mismatches between the parents nuclear DNA (which is not from mitochondria) and the donors mitochondrial DNA.

Some researchers take issue with the moniker three-parent baby. Cohen, for one, says the term is wrong. Mitochondrial DNA does not contribute to a persons traits. So, he argues, the person who donates mitochondrial DNA is hardly a "parent."

Andrew R. La Barbera agrees. He is chief scientific officer of the American Society for Reproductive Medicine. A persons essence as a human being comes from their nuclear genetic material, he says, not their mitochondrial genetic material." So children conceived using mitochondrial transfer have just two parents, he maintains.

But there are bigger controversies here than what makes a parent. Opponents of these techniques worry that none has been fully tested.

Darnovsky says, We wish the baby and family well, and hope the baby stays healthy. But until these techniques are shown to be safe, she says, I have a lot of concerns about this child and about future efforts to use these techniques.

Zhang also drew fire for going to Mexico to perform the procedure. In America, researchers are banned from doing things that could alter human DNA in a way that can be passed from generation to generation. Spindle and pronuclear transfer both do this. The worry is that genetic changes of future generations wont stop with preventing diseases. Policy makers wanted to outlaw efforts to make genetically enhanced designer babies.

However, a panel of experts said in February 2016 that it is ethical to make three-parent baby boys. But not girls. Why? Fathers almost never pass mitochondria on to their babies. So baby boys born through such techniques should never pass along the donors mitochondria.

A baby girl, though? That would be a very different story.

More:
How to make a 'three-parent' baby - Science News for Students (blog)