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Home»News»Nanoparticle-mediated gene therapy fixes major cause of stillbirth and premature birth in guinea pig model
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Nanoparticle-mediated gene therapy fixes major cause of stillbirth and premature birth in guinea pig model

December 16, 2024No Comments5 Mins Read
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Nanoparticle-mediated gene therapy fixes major cause of stillbirth and premature birth in guinea pig model
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Dogs, cats, guinea pigs, rabbits and ferrets are being taken to veterinary clinics with heatstroke. Credit: Pixabay/CC0 Public Domain

The life of billions of people inhabiting Earth is owed to a temporary organ that supported and nourished them in a mother’s womb. The placenta, or afterbirth, is considered sacred by some cultures, its pivotal role in pregnancy recognized as far back as the raising of Egypt’s pyramids. It provides nutrients and oxygen to the fetus via the umbilical cord, acting like a gut, kidney, liver, and lungs.

If the placenta fails, only one hazardous option remains—premature delivery through induced labor or cesarean delivery.

Now, the first therapy to potentially reverse a condition that is a significant cause of stillbirth and premature delivery around the globe is being developed by a team led by a University of Florida Health researcher who has spent 20 years studying this remarkable organ. The therapy has proved highly successful in animal studies.

Up to 1 in 10 pregnancies in the developed world are affected by placental growth restriction, and twice that in the undeveloped world.

The success of the gene therapy created by UF Health researcher Helen N. Jones, Ph.D., and a team of collaborators would mark a sea change in obstetrics.

Optimistically, human trials are five years in the future.

But Jones, an associate professor in the UF College of Medicine’s Department of Physiology and Aging, said there is good reason for optimism, noting in vitro (outside the body) evidence from the laboratory shows the treatment could be effective in human tissue.

“This is a very exciting therapy,” Jones said. “We’re very happy with our results so far. If this goes well, it could be a game-changer for mothers worldwide. It has the potential to prevent so many premature births and give families hope that placental failure is not the early end of a pregnancy.”

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Placental growth insufficiency, which starves the fetus of nutrition and oxygen, leaves doctor and mother with no option to extend a fetus’ time in the womb. Premature delivery can be many weeks before a due date.

“The only thing that can be done is deliver the baby and bring it to the NICU (Neonatal Intensive Care Unit),” Jones said.

Even when babies survive birth, often far below normal birth weight, health issues can develop in later years, including neurodevelopmental dysfunction.

The new gene therapy is delivered to the placenta by a polymer nanoparticle so small it would take roughly 500 of them, side by side, to equal the width of a human hair.

The nanoparticle carries cargo—a DNA plasmid. This is a piece of harmless DNA that, introduced into a specific type of cell in the placenta, triggers the manufacture of a protein that interacts with the cell to activate chemical processes that can change or enhance cellular function.

In a sense, the cell receives an extra set of instructions to make more of this protein. That’s crucial because these placentas don’t make enough, leading them to fail.

The cause of placental insufficiency isn’t well understood. One thing scientists have noted, however, is that these malfunctioning placentas have lower levels of a hormone called insulin-like growth factor 1. The gene therapy coaxes the placenta to produce more significant quantities of the growth factor.

This hormone stimulates cell growth and development, spurs tissue repair, and ensures the fetus receives nutrition. Without it, the fetus does not receive enough nutrients to develop and grow properly.

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What makes insulin-like growth factor 1 especially attractive to Jones’ team is that it stimulates vascularization, or the formation of blood vessels, essential for healthy tissue. In the placenta, that translates to better nutrient transfer.

“One of the things with a growth-restricted placenta is that it doesn’t have as good a vascular tree as a normal placenta does,” Jones said.

Jones is senior author of a study published in Nature Gene Therapy on Dec. 4 that she said details exciting results. It shows that in guinea pigs, the therapy boosted placental function and delivery of normal-weight offspring. Guinea pigs have biological and physiological conditions during pregnancy that parallel humans.

Surprisingly, the treatment also reduced the mother’s levels of cortisol, the stress hormone. If this holds in humans, the therapy might help lessen a burden many mothers know all too well.

Stress, Jones said, is a normal byproduct of pregnancy. But too much can cause complications thought to contribute to high blood pressure, disruption of a fetus’ brain development, sleep deprivation, and mental health concerns such as depression and anxiety.

Stress can trigger problems for mother and child even many years later, including cardiovascular disease and diabetes.

Common remedies for maternal stress aren’t always practical.

“A mother often has to work right up until delivery, and there’s nothing they can change about that,” said Jones. “They can’t just sit down and put their feet up. And while their doctors tell them to get more exercise, go outside, and not sit at their desks all day, we know that often doesn’t work in the real world. A treatment like ours could be life-changing in some pregnancies.”

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University of Florida



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