The Importance of Model Systems

Animal models of autism, including cell based models, have received criticism because autism is a uniquely human condition so there is no value in studying it in a model like a mouse or a cell. On the other hand, model systems have been used for decades to develop therapies for a myraid of other conditions and disorders, and produced evidence-based treatments for not just autism but conditions from ADHD to schizophrenia. So why is there so much backlash about this line of research? The ASF podcast talks to Jill Silverman at UC Davis to get some perspective.

https://pubmed.ncbi.nlm.nih.gov/35285132

https://www.vox.com/future-perfect/377739/autism-research-mice-lab-models

Can animals be autistic?

The answer is obviously “no”, however, animal models are necessary to help understand brain circuitry and improve interventions and supports for not just core symptoms but associated issues like anxiety, OCD, seizures and GI issues. Scientists view behaviors consistent with an ASD diagnosis differently, and this has created some problems in interpretation of animal model data. This week’s #ASFpodcast will break down a recent paper in Genes, Brain and Behavior which addresses inconsistencies in the literature and makes recommendations on how researchers should shift how they think about how they can replicate features of ASD in a model system.

https://pubmed.ncbi.nlm.nih.gov/35285132/

Seizures and the after-effects depends on genetics

In recognition of epilepsy awareness month, this week we are interviewing Jill Silverman and Nycole Copping from UC Davis who published a paper looking at the causes and consequences of seizures across 3 different strains of mice, which are identical all but their background genetics.  This is important because new animal models of autism are built upon these different background strains, but very little work has been done to really understand how these different tiny changes in genetic background influences response to an environmental factor.  In this study the environmental factor was a drug that produces seizures.  Two out of the three strains showed seizures and all three showed some behavioral after-effects of the seizure – inducing drug.  Therefore, differences in background genetics influenced the outcome of the mice, an effect that is rarely studied.  The authors point out what these behaviors are, what they mean, and why animal models are important for understanding ASD and seizures.

https://www.ncbi.nlm.nih.gov/pubmed/31698263

Are animal models for ASD a monkey wrench or useful tool?

A new animal model of autism appeared this week:  the monkey.  This adds to the ever growing list of different model systems from autism, from fruit flies to mice and rats now up to monkeys.  Are these animal models useful and for what, and why isn’t there just ONE model of autism rather than the dozen that exist?  This week’s podcast discusses research from scientists at the UC Davis MIND Institute and what they are doing to improve these models of ASD.

https://www.spectrumnews.org/features/multimedia/webinars/webinar-jill-silverman-makes-case-rat-models-autism/

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5810939/pdf/nihms906435.pdf

http://news.mit.edu/2019/gene-editing-autism-model-0612

An ode to rats as animal models for autism

This week, the lab of Dr. Jill Silverman at UC Davis published a study that showed the most similar types of social communication deficits in an animal model.  Her group, led by Elizabeth Berg, used a rat model, rather than a mouse, because rats exhibit both receptive and expressive communication.  Through a collaboration within the UC Davis MIND Institute and Mount Sinai School of Medicine, she tested an animal model of autism that shows a lack of expression of SHANK3.  SHANK3 mutations are seen in those with Phelan-McDermid Syndrome as well as in 1% of people with autism.  This new study opens up new ways to understand autism symptoms in an animal model, and moves autism research using animals forward significantly.   The references mentioned in the podcast are:

 

https://www.ncbi.nlm.nih.gov/pubmed/29377611

https://www.ncbi.nlm.nih.gov/pubmed/29126394

https://www.ncbi.nlm.nih.gov/pubmed/27189882