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Showing posts with label ERbeta. Show all posts
Showing posts with label ERbeta. Show all posts

Thursday 3 October 2019

Elevated Prenatal Estradiol in Mothers/Babies – a protective reaction to stress that also predicts who will develop Autism? Time for Fetal Medicine?


There has been little mention in this blog about fetal medicine, but it is an area that does hold great promise.  At the Children’s Hospital of Philadelphia, they have been surgically treating babies with spina bifida prior to their birth for nearly twenty years. Early surgical intervention to the spine even allows for malformation of the brain to be self-repaired and this is visible on MRI scans. Such prenatal treatment can be 100% successful, resulting in there being no physical disability in adulthood. 

The more you read about neuroscience the more you realize how little we really know and so encouraging the brain to self-repair may indeed be the best strategy.  This is an avenue of research and not just with stem cells.  A similar approach is proving successful in treating skin cancer, you do not attack the cancer with drugs, you modify the immune system with a drug so it "wakes up" and does its job and kills the cancer cells.

        Skin cancer: Half of people surviving advanced melanoma

Hormones are an often-ignored area of autism research, but they are they on my Venn diagram simplification of autism.



We have seen how female hormones can be highly neuroprotective and that the estradiol/testosterone balance affects a key “switch” that controls gene expression RORalpha.

Today we see that researchers in Utah suggest that stress in the developing fetus with autism causes an increase in estradiol, as a protective mechanism, and this increase in estradiol can then be measured in the mother’s blood. They propose that this elevated estradiol is an advance warning of a baby with autism.



University of Utah researchers have discovered a link between increased levels of a type of estrogen in babies in their second trimester and risk for autism, according to a new study.

The findings could eventually help doctors identify babies at risk of autism early in their mothers’ pregnancies and monitor them more closely, as well as provide early interventions to ensure the children’s well-being, said Dr. Deborah A. Bilder, the study’s first author.

Both the control group and the group of mothers whose children had autism were selected so that 50% of each group had an exposure to a condition such as gestational diabetes, hypertension and preeclampsia. Previous studies have shown links between those conditions and autism risk.

The researchers looked at several different steroids in the blood samples. Bilder said she expected to find increased levels of steroids that were known to be associated with the conditions, like testosterone. She found those steroids, but they did not reach a statistical significance, according to Bilder.

Bilder also expected progesterone and testosterone in the kids who developed autism to be elevated.

“But that’s not what I found. Instead, what I found, is estradiol being elevated in the children who developed autism,” she said.

Estradiol is a type of estrogen. Lower levels of estradiol in a baby usually indicate a concern with the baby, and high estrogen levels are not currently associated with abnormal conditions.

But as the researchers looked at the steroid hormones that were measured, “what we realized is that the higher estrogen levels being produced by the placenta actually may be stimulating the baby’s development of his or her stress response.”
Usually, a baby’s stress response takes time so that when the pregnancy reaches full term, the baby has developed its own stress response. But elevated levels of estrogen cause the baby’s stress response to develop early, Bilder said.
That prepares babies, when there is an issue, to survive outside the mom. It causes early growth of the lungs, gut and skin so that if the baby doesn’t make it all the way through pregnancy, it’s more likely to survive, she said.

The findings indicated that in the babies with autism, something set off their stress response early.

Studies have shown that children with autism have an abnormal stress response, according to Bilder. She believes the mechanism that triggers the early stress response during pregnancy may still be affecting children with autism past delivery.

Bilder doesn’t think doctors should target the higher estradiol levels or try to lower them. Instead, because it signals a “protective mechanism, that baby is surviving,” doctors should target something that doesn’t jeopardize the baby’s survival.

“By being able to have a way of looking at the baby’s well-being in that regard, I think that opens up the door to considering how can you reduce the stress on that baby?” Bilder explained.
                                                                                 
The full paper:-

Early Second Trimester Maternal Serum Steroid-Related Biomarkers Associated with Autism Spectrum Disorder


Epidemiologic studies link increased autism spectrum disorder (ASD) risk to obstetrical conditions associated with inflammation and steroid dysregulation, referred to as prenatal metabolic syndrome (PNMS). This pilot study measured steroid-related biomarkers in early second trimester maternal serum collected during the first and second trimester evaluation of risk study. ASD case and PNMS exposure status of index offspring were determined through linkage with autism registries and birth certificate records. ASD case (N = 53) and control (N = 19) groups were enriched for PNMS exposure. Higher estradiol and lower sex hormone binding globulin (SHBG) were significantly associated with increased ASD risk. Study findings provide preliminary evidence to link greater placental estradiol activity with ASD and support future investigations of the prenatal steroid environment in ASD.


Fig. 1 The placenta produces estradiol from DHEA of both maternal and fetal origin and shunts over 90% of estradiol into the maternal circulation. The volume of DHEA substrate determines placental estradiol production and subsequently maternal serum estradiol levels. DHEA exists primarily in its conjugated form DHEAS


This is interesting as are some other findings linking steroid hormones to future autism. Another paper highlights a mechanism where maternal stress only has damaging effects on the male fetus (Placental adaptation in response to PNMS is sex-dependent, leading to an increased risk of adverse neurodevelopmental effect in male compared to female).

This paper looks at the effect of maternal stress on serotonin and another group of hormones (Glucocorticoids).

Effects of prenatal maternal stress on serotonin and fetal development

Fetuses are exposed to many environmental perturbations that can influence their development. These factors can be easily identifiable such as drugs, chronic diseases or prenatal maternal stress. Recently, it has been demonstrated that the serotonin synthetized by the placenta was crucial for fetal brain development. Moreover, many studies show the involvement of serotonin system alteration in psychiatric disease during childhood and adulthood. This review summarizes existing studies showing that prenatal maternal stress, which induces alteration of serotonin systems (placenta and fetal brain) during a critical window of early development, could lead to alteration of fetal development and increase risks of psychiatric diseases later in life.




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         Fig. 1. Proposed mechanism of fetal programming of psychiatric disorders involving placental serotonin system. Cortisol and placental serotonin are essential for fetal brain development. Prenatal maternal stress alters glucocorticoid (11b-HSD2, GR and CRH) and serotonin (SERT, 5-HT1A and 5-HT2A) systems as well as serotonin and glucocorticoid interaction in the placenta. These placental alterations lead to adverse neurodevelopment and programming leading to psychiatric disorders later in life. Placental adaptation in response to PNMS is sex-dependent, leading to an increased risk of adverse neurodevelopmental effect in male compared to female. 11b-HSD2: Type 2 11-beta hydroxysteroid dehydrogenase, GR: Glucocorticoid receptor, CRH: Corticotrophin releasing hormone, SERT: Serotonin transporter, 5-HT1A: Serotonin 1A receptor, 5-HT2A: Serotonin 2A receptor


Conclusion    
         
It should be noted that estradiol is supposed to be elevated during pregnancy. Indeed, this elevation is suggested to explain why females with ADHD have far less symptoms during pregnancy (estradiol is good for ADHD). The study is highlighting a level of estradiol during pregnancy that is even higher than that normally expected.

Spina bifida is normally detected by ultrasound before 18 weeks of pregnancy. This is around the same time that in autism there appears to be elevated estradiol.  Hopefully other biomarkers will also be found.

Given this advance warning, there is potential for fetal medicine.

Only very recently was the first person in the UK treated for spina bifida using fetal surgery, almost two decades after the first operations in the US.

Fetal medicine for autism would not be surgical, rather pharmacological.  In mouse models it has already started.

Estradiol has many effects and I did write about DHED, an orally active, centrally selective estrogen and a biosynthetic prodrug of estradiol. DHED is estradiol just for the brain, without affecting the rest of the body.  I think many people would benefit from DHED, across the range from ADHD to TBI (Traumatic Brain Injury).

DHED, delivering Estradiol only to the Brain, also Lupron and Spironolactone


Estradiol may indeed prove to be a fetal biomarker for autism and DHED might be a useful drug for someone with autism (via ERβ and RORalpha).