[ Evolutionary Biology ] Pregnancy evolved in mammals 'by chance through ancient genomic parasites'
[ Evolutionary Biology ]
The Evolutionary Origin of the Womb :
Ancient 'genomic parasites' spurred evolution of pregnancy in mammals
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Studies of Embryos by Leonardo da Vinci
The evolution of biological structures and functions from existing ones, for example a forearm from a fish fin, has been studied for centuries. But how do entirely new things evolve? It’s a tricky question to answer, but Vincent Lynch, PhD, assistant professor of human genetics at the University of Chicago, and his colleagues shed some light on this process in a new study published online today in Cell Reports.
Vincent Lynch, PhD, assistant professor of human genetics
Taking a look at the origins of pregnancy in mammals, they identified large-scale genetic changes that marked the transition from egg laying to live birth. The researchers found thousands of genes that evolved to be turned on or off in the uterus in early mammals, including many with critical functions in establishing maternal-fetal communication and suppressing the mother’s immune system so that a fetus is not attacked. What was most surprising, however, was what regulated the expression of these genes – transposons, ancient mobile genetic elements sometimes thought of as genomic parasites.
“For the first time, we have a good understanding of how something completely novel evolves in nature, of how this new way of reproducing came to be,” Lynch said. “Most remarkably, we found the genetic changes that likely underlie the evolution of pregnancy are linked to domesticated transposable elements that invaded the genome in early mammals. So I guess we owe the evolution of pregnancy to what are effectively genomic parasites.”
To study genetic changes during the evolution of pregnancy in mammals, Lynch and his colleagues used high-throughput sequencing to catalog genes expressed in the uterus of several types of living animals – placental mammals (a human, monkey, mouse, dog, cow, pig, horse and armadillo), a marsupial (opossum), an egg-laying mammal (platypus), a bird, a reptile and a frog. Then they used computational and evolutionary methods to reconstruct which genes were expressed in ancestral mammals.
Genes gained (+) or lost (-) as the common ancestor to all mammals (Mammalia),
marsupial and placental mammals (Theria), and placental mammals (Eutheria) evolved.
The researchers found that as the first mammals evolved – and resources for fetal development began to come more from the mother and less from a yolk – hundreds of genes that are important for cellular signaling, metabolism and uterine development started to be expressed in the uterus. As the eggshell was lost and live-birth evolved in the common ancestor to marsupials and placental mammals, more than 1,000 genes were turned on, many of which were strongly linked to the establishment of maternal-fetal communication. As prolonged pregnancy evolved in placental mammals, hundreds of genes began to be expressed that greatly strengthened and elaborated maternal-fetal communication, as well locally suppressing the maternal immune system in the uterus – thus protecting the developing fetus.
The team also identified hundreds of genes that were turned off as these lineages evolved, many of which had been involved in egg shell formation.
“We found lots of genes important for maintaining hormone signaling and mediating maternal-fetal communication, which are essential for pregnancy, evolved to be expressed in the uterus in early mammals,” Lynch said. “But immune suppression genes stand out. The fetus is genetically distinct from the mother. If these immune genes weren’t expressed in the uterus, the fetus would be recognized by the mother’s immune system as foreign and attacked like any other parasite.”
Vincent Lynch's work showed how pregnancy evolved in mammals from laying eggs like these platypuses to giving birth to live fully-developed young.
As mammals began to transition from egg laying to live birth, genes involved in egg shell production began to be turned off. ( An echidna, another egg-laying mammal. is pictured )
Marsupials like the Koala give birth to live, but very under-developed young. As the egg shell was lost, nutrients for fetal development began to come from the mother directly ( instead of a yolk ).
As the common ancestor to marsupials and placental mammals evolved, genes involved in maternal-fetal communication began to be expressed.
Placental mammals give birth to relatively well-developed young.
Placental mammals have invasive placentas and very interconnected maternal-fetal blood supplies.
As the common ancestor to placental mammals evolved, genes that locally suppress the immune system in the uterus began to be evolved so that the fetus isn't attacked by the mother's immune defenses.
In addition to function, Lynch and his colleagues investigated the origin of these genes. They found most already had roles in other organ and tissue systems such as the brain, digestive and circulatory systems. But during the evolution of pregnancy, these genes were recruited to be expressed in the uterus for new purposes. They evolved regulatory elements that allowed them to be activated by progesterone, a hormone critical in reproduction.
The team found that this process was driven by ancient transposons – stretches of non-protein coding DNA that can change their position within the genome. Sometimes called “jumping genes,” transposons are generally thought to be genomic parasites that serve only to replicate themselves. Many of the ancient mammalian transposons possessed progesterone binding sites that regulate this process. By randomly inserting themselves into other places in the genome, transposons appear to have passed on this activation mechanism to nearby genes.
“Genes need some way of knowing when and where to be expressed,” Lynch said. “Transposable elements appear to have brought this information, allowing new genes to be expressed in the uterus during pregnancy. Mammals very likely have a progesterone-responsive uterus because of these transposons.”
Lynch and his colleagues note their findings represent a novel explanation for how entirely new biological structures and functions arise. Rather than genes gradually evolving expression one at a time, transposable elements coordinated large-scale, genome-wide changes that allowed numerous genes to be activated by the same signal – in this case, progesterone, which helped drive the evolution of pregnancy.
“It’s easy to imagine how evolution can modify an existing thing, but how new things like pregnancy evolve has been much harder to understand,” Lynch said. “We now have a new mechanistic explanation of this process that we’ve never had before.”
The study, “Ancient Transposable Elements Transformed the Uterine Regulatory Landscape and Transcriptome during the Evolution of Mammalian Pregnancy,” was supported by the Burroughs Wellcome Preterm Birth Initiative and the John Templeton Foundation. Additional authors include Mauris C. Nnamani, Aurelie Kapusta, Kathryn Brayer, Silvia L. Plaza, Erik C. Mazur, Deena Emera, Shehzad Z. Sheikh, Frank Grutzner, Stefan Bauersachs, Alexander Graf, Steven L. Young, Jason D. Lieb, Francesco J. DeMayo, Cedric Feschotte and Gunter P. Wagner.
Images courtesy Flickr via Creative Commons licensing.
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• The Pregnancy Puzzle : Genomic analysis reveals the evolutionary origin of the womb
• Ancient ‘genomic parasites’ spurred evolution of pregnancy in mammals
"... Large-scale genetic changes that marked the evolution of pregnancy in mammals have been identified by an international team of scientists. They found thousands of genes that evolved to be expressed in the uterus in early mammals. Surprisingly, these genes appear to have been recruited from other tissue types by transposons — ancient mobile genetic elements sometimes thought of as genomic parasites. The study sheds light on how organisms evolve new morphological structures and functions. ..."
• The Uterus: A Natural History
"... placental mammals had evolved elaborate uteruses that allowed for invasive placentas, maternal tolerance of the fetus, and long gestation periods. What caused this evolution? Why did mammals suddenly appear? ..."
• Pregnancy evolved in mammals 'by chance through ancient genomic parasites'
"... the genetic changes that likely underlie the evolution of pregnancy are linked to domesticated transposable elements that invaded the genome in early mammals. we owe the evolution of pregnancy to what are effectively genomic parasites ...."