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 “With more information about maternal illness,
what we call maternal immune activation, we can make better
decisions about how to handle these types of immune challenges
within animal production settings,” says Marissa Keever-Keigher,
doctoral student in the Department of Animal Sciences at
Illinois and lead researcher on the study.
Studying brain development in the domestic pig is relevant on
the farm, of course, but pig studies can also inform human
neurodevelopmental research. That’s because the pig’s
development, genetics, brain structure, and more are very
similar to our own.
In previous pig studies looking at the effects of maternal
immune activation, Keever-Keigher and her colleagues showed
important genetic changes occur in the piglet amygdala, a brain
structure that plays an important role in learning, social
behavior, and stress response in both humans and pigs.
The researchers also knew from primate and rodent studies that a
second immune challenge, known as a double hit, can further
disrupt typical brain development in young animals. To test the
double hit hypothesis in pigs, the team chose weaning as the
second challenge.
“While weaning is not itself an immune challenge, it is an
extremely stressful time during a piglet’s life and can elicit
an immune response,” says Haley Rymut, doctoral student in
animal sciences and co-author on the study. “Piglets have to
deal with a broad array of stressors, including physical
stressors from being handled and moved, and emotional stressors
from being taken away from the mom and placed with their peers.
Any of those physical or emotional stressors can kick off an
immune response.”
The researchers looked at a combination of factors for piglets
in the study: whether or not their moms were infected with
porcine reproductive and respiratory syndrome virus (PRRSV)
during gestation, and whether or not they were weaned at 21 days
of age, the typical age in production settings. They also noted
the sex of the piglets, as their earlier research indicated male
piglets showed more changes in the amygdala as a result of
maternal illness.
“Using high throughput sequencing technologies, we were able to
monitor the levels of more than 16,000 genes in the pigs. We
uncovered more than 100 genes and molecular pathways affected by
either maternal immune activation, weaning, sex, or a
combination of factors in the amygdala on day 22 for all
piglets. The effect of pre- and postnatal stressors on
neuropeptide genes confirms the plasticity of the infant brain
during development to respond and adapt to challenges,” says
Sandra Rodriguez-Zas, professor in animal sciences and faculty
advisor to Keever-Keigher and Rymut. Rodriguez-Zas is principal
investigator of the U.S. Department of Agriculture-funded study.
Many of the genes expressed at higher or
lower-than-typical rates in weaned piglets from virus-infected
mothers have been associated with autism spectrum disorder (ASD)
and schizophrenia spectrum disorder (SSD) in previous studies.
But genes relevant to other neurological disorders were affected
too.
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“We also found changes in expression of genes
associated with neurodegenerative diseases like Huntington's and
Alzheimer's disease,” Keever-Keigher says.
As in the scientists’ previous work, the double hit affected male
piglets more than females, with greater dysregulation of genes in
the amygdala. The researchers found evidence of more protective
pathways in female brains, giving them an advantage in handling
stressful events.
The study provides valuable clues for researchers studying ASD, SSD,
and neurodegenerative disorders in humans, even though some aspects
might not translate directly.
Rymut says, “For most children, weaning isn’t nearly as stressful as
it is for pigs in a production setting. But many other traumatic
events early in childhood could set up that double hit.”
On the farm, pigs from virus-infected mothers often show anti-social
behaviors. Because pigs are typically group-housed and fed via
communal feeders, pigs that don’t like being around their peers are
often last to feed and generally more stressed, leading to slower
growth rates and lower overall body condition scores.
“The lesson for swine producers, I think, is to be really mindful of
stressful conditions in the production cycle, and try to mitigate
those as much as we can in order to create the most productive and
healthy livestock animals and benefit producers’ bottom lines,”
Keever-Keigher says.
Rymut adds, “Also, knowing how the different sexes respond could
help producers manage animals that are less likely to be productive
as a result of maternal immune activation.”
The article, “Interacting impact of maternal inflammatory response
and stress on the amygdala transcriptome of pigs,” is published in
G3 Genes|Genomes|Genetics [DOI: 10.1093/g3journal/jkab113]. The
research was supported by the National Institutes of Health and the
U.S. Department of Agriculture’s “Dual Purpose for Dual Benefit”
program (grant number 2018-67015-27413). Rod Johnson, professor and
head of the Department of Animal Sciences is co-investigator on the
grant and co-author on the G3 paper.
The Department of Animal Sciences is in the College of Agricultural,
Consumer and Environmental Sciences at the University of Illinois.
[Sources: Marissa Keever-Keigher,
Haley Rymut, Sandra Rodriguez-Zas,
News writer: Lauren Quinn] |
