Father of mine

In recognition of Father’s Day on the 16th, today’s podcast includes the latest research on fathers. Fathers may often be the “secondary caregiver” but should hardly be dismissed as inconsequential. Father’s sensitivity and insightfulness plays an important part in development, psychiatric diagnoses (including autism) change the the chance of having a child with autism, and more understanding is being done on the heritable factors associated with chemical exposures in the father.

https://www.tandfonline.com/doi/full/10.1080/14616734.2024.2326416

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11059471/pdf/main.pdf

Sperm

The title gets you, right? Well, on this week’s #ASFpodcast we report on a new study that examines epigenetic profiles of sperm and how they related to child outcomes. Do some of the marks on bio-dad’s sperm match to those found in kids with ASD? what about genes related to autism? Also, can parents be good proxies of their child’s intellectual ability? For the most part yes, but sometimes they tend to overestimate this ability. This means they are good, but not perfect reporters. How could they be if the child has a severe intellectual disability?

https://pubmed.ncbi.nlm.nih.gov/37097835/

https://pubmed.ncbi.nlm.nih.gov/37100868/

A new ways for the environment to affect genetic expression

You have maybe heard about how environmental exposures after conception or birth may affect genetic expression and then risk of developing autism. But what research has been done to look at preconceptional exposures, presumably exposures that affect the cells that then give rise to sperm and eggs? Turns out they are susceptible to some environmental exposure too, which could lead to a change in the way genes are expressed in the embryo, the fetus, and then the child. Want to know more? Jill Escher just published a study with scientific colleagues about this hypothesis and she explains it in this week’s podcast.

https://pubmed.ncbi.nlm.nih.gov/34596807/

What sperm tells scientists about the origins of ASD

Does autism begin at a diagnosis, or before a diagnosis?  How early do genetics influence outcome?  This podcast explores a new angle to this question using studies in sperm.  One type of major ASD relevant mutation is de-novo mutations, meaning they are seen in the person with ASD but neither biological parent.  So where do they come from?  They may come from germ cells of the embryo of the parent, which forms the sperm and the egg.  Researchers from UCSD looked at mutations in sperm vs. blood in fathers of those with de-novo mutations and found an enrichment of genetic mutations in sperm.  This means the window of susceptibility can include not just things that happen at conception, but before conception.  Below is a graphic taken from a commentary of this study in Nature by Eric Morrow which may be helpful.

 

Moving away from genes OR environment towards genes AND environment

On Thursday October 1st, Autism Science Foundation, Autism Speaks and the Escher Fund for Autism co-organized an online symposium which examined the possibility that early mutations in cells that pass along genetic information from generation to generation (sperm and egg and cells that make the sperm an egg) has a role in the causes of autism.  This symposium is on the ASF podcast feed, but a quick summary is presented on this week’s podcast.  Jill Escher from the Escher Fund for Autism and Mat Pletcher from Autism Speaks provide their perspective.  Also, a quick rundown on the study that caused so much monkeying around in the press.

Early Germline Events in the Heritable Etiology of ASDs

On October 1st, Autism Science Foundation, Autism Speaks and the Escher Fund for Autism co-organized a webinar entitled “Early Germline Events in the Heritable Etiology of ASDs”.  The goal was to bring together researchers who study the germline (the sperm and the egg and all cells which pass down genetic information) and those studying the genetics of autism to determine how “de novo” or “new” genetic mutations are happening and how environment plays a role in genetics of autism and vice versa, rather than separating the concepts out into “either/or” .  This is part of an ongoing online symposium series on the epigenetics of autism.  Dr. Amander Clark from UCLA and Dr. Ryan Yuen from SickKids Hospital presented and a panel of experts including Lisa Chadwick from NIEHS, Patrick Allard from UCLA, Stephan Sanders from UCSF and Janine LaSalle from UCDavis commented.  We hope you enjoy the 2 hour webinar.