A fat hope for autism! - Interview with Zhigang Xie on role of fatty acid metabolism in neuronal stem cells.

Autism is a distressful condition with impaired social interaction and communication. At its basis, it is a neurodevelopment disorder, with certain areas of the brain not developing properly. The burden of brain development falls on neural stem cells, which divide to generate functional neurons as well as maintaining their own numbers. Zhigang Xi and his colleagues show that fatty acid beta-oxidation seems to play a major role in maintaining the stem cells involved in autistic behavior. How is this achieved -- to know the answer, we call Zhigang Xi.


Please read the original article here:
Inborn Errors of Long-Chain Fatty Acid β-Oxidation Link Neural Stem Cell Self-Renewal to Autism
Xie et al., Cell Reports (2016). Volume 14, Issue 5, p991–999.

A coin toss for being fat! -- Interview with Kevin Dalgaard about the role of an epigenetic switch for obesity

Obesity is a growing epidemic in the world. Development of obesity involves environmental factors like eating choices (McDonalds vs. salad) or exercise, and genetic players. But if we were to keep all the variables the same, like two twins being given the same food, would they both end up with the same body shape??

Surprisingly no!

Kevin Dalgaard from Max Planck Institute of Immunobiology and Epigenetics and colleagues from around the world show that shows that even if two genetically identical people are given the same food, one might end up being lean and the other fat -- and this 'decision' lies in an epigenetic network on top of which sits Trim28. Trim28 network acts as a coin toss, with chance deciding the network's strength and thereby development of obesity.
To understand this amazing regulation better, we talk with Kevin.


Please read the following article to know more:
Trim28 Haploinsufficiency Triggers Bi-stable Epigenetic Obesity
Dalgaard et al., Cell (2016). Volume 164, Issue 3, p353–364.

You can also a YouTube video explaining the article here: Who am I not?

Wedding :)

No podcast this week since I get hitched to this beauty - Priyanka Oberoi ;)

Next two weeks, we return with complex disorders: autism, obesity, cancer and microbiota!
Stay tuned :)

Tough times don't last; 5' uORFs do! -- Interview with Shelley Starck about Cell's Stress Response Mechanism

What do you do when you feel stressed and sick. Probably try to get some rest and sleep, eat healthier and maybe go to a doctor. Did you know that individual cells in our body also come under stress! And they respond as you and I do: they decrease energetically expensive protein synthesis (rest),  but increase production of things that help them fold proteins properly, like chaperones and heat shock proteins (develop healthier mileu), and try to contact neighboring cells and immune response (doctor) to tell about their condition. But how do they achieve all these amazing tasks???

Shelley Starck, a former post-doc with Nilabh Shastri, and currently a post-doc with Peter Walter at UCSF set out to answer this exact question. She developed a highly sensitive method of detecting proteins within the cell and used the assay to find those that increase during stress. What she found can be summarized by a quote from annonymous source: "Good things can come from unexpected places".

What are these good things and how do they arrive, listen in!!!



Please read the article for more information:
Translation from the 5′ untranslated region shapes the integrated stress response
S. R. Starck et al.,Science 351, aad3867 (2016). DOI: 10.1126/science.aad3867

Give me food, give me sex; give me that which I desire -- Interview with Yi Li about reward sensing!!

Chocolate, chips, cigarettes, alcohol, sex; well, we all choose our sins. What is making us crave for such desires, and what happens when we finally achieve them. Yi Li in his exciting study published in Nature Communications shows that serotonergic neurons in the dorsal raphea nucleus in brain might be involved in reward and pleasure behavior. He did this by observing and recording neuronal activity in live, uninhibited mice while they seek food, sucrose, social interaction and even sex. We call him to hear more about this exciting study.   

You can read the original article here: 

Serotonin neurons in the dorsal raphe nucleus encode reward signals

Li et al., Nature Communications 7, 10503, January, 2016.