Breakthrough for those with rare genetic disorders

This week, more on genetics as an influence to an autism diagnosis with a twist: can genetics lead to a specific treatment for core symptoms – across the board? How do you measure such broad symptoms? Our Rett Syndrome family friends and colleagues developed a novel outcome measure to capture what was most important to them, and the FDA approved it for use in a clinical trial. Years later, a new drug was approved that led to a reduction in behaviors associated with Rett Syndrome. Autism can take a lesson from this. In addition, can the genetics of autism be explained by parents with similar phenotypes? This is called assortative mating. The answer is complex.

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10450502/pdf/fped-11-1229553.pdf

https://www.nature.com/articles/s41591-023-02398-1

https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/38877467

The Transcription Factor Song

Very rarely are scientists able to look at single genes within the brains of people across neuropsychiatric disorders and understand how the genes in each of these cells influence expression of proteins and interactions of different cells with each other. Recently, a collaboration called PsychENCODE released a series of papers that investigated what genes are expressed in what cells in autism in different situations, how cells that communicate interact with more support or glial cells, and what mechanisms are in place to identify ways in which the broad environment (chemicals, contextual factors, illness) may influence gene expression leading to disorders like autism, schizophrenia and bipolar disorder. This podcast summarizes these papers as they are related to autism – ore at least tries to.

https://www.psychencode.org/phase-ii

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

We need more psychiatrists with expertise in autism

General psychiatrists are trained deal with a range of psychiatric issues in a variety of areas, but very few have experience helping families of children and adults with autism. This is training that is desperately needed, as, like other professions, there are not enough psychiatrists to help families and waitlists are staggering. Dr. Arthur Westover at UT Southwestern discusses some potentially simple solutions, what he has tried and worked, and how families and advocacy groups can get more involved to ensure that doctors know about the unique and difficult psychiatric issues that autistics face. His ideas will not happen spontaneously, it’s going to take work to make psychiatrists more tuned into the needs of the autism community. He even wrote a paper (link below).

https://pubmed.ncbi.nlm.nih.gov/38782841

Biology of profound and non-profound autism

Scientists have spent a lot of time trying to understand the biology of autism, unfortunately in the past, scientific studies had everyone with autism lumped together in one group and there are so many differences between people with a diagnosis that any features of the diagnosis itself were hard to detect. In the past, researchers grouped those who are cognitively abled with those who have average or superior intellectual disability, those who are able to express themselves verbally with those who cannot, and those who need 24-hour care with those who can live independently. This week, researchers changed that pattern of lumping all the autisms together by using profound autism as a subgroup and as a way to determine differences across autism subgroups. Researchers at @UCSD examined the cell sizes and the brain sizes of individuals with profound autism and compared them to those with non-profound autism. They found the larger the brain cell, the larger the brain size in different areas, and the more profound the autism. There were differences between profound autism, non-profound autism and typically developing controls. This is just a first step in using different classifications of behavior to understand the neurobiology of ASD and link brain function to autism behaviors, leading to more specific support for those across the spectrum.

https://molecularautism.biomedcentral.com/articles/10.1186/s13229-024-00602-8#Sec26