Quinn Eastman

An exceptional electrical thrill ride #CNS2018

A recent paper in Neuropsychologia got a lot of attention on Twitter and at the Cognitive Neuroscience Society meeting in Boston over the weekend. It discusses what can happen when the amygdala, a region of the brain known for regulating emotional responses, receives direct electrical stimulation. A thrill ride – but for only one study participant. Two of nine people noticed the electrical stimulation. One individual reported (a video is included in the paper):

“It was, um, it was terrifying, it was just…it was like I was about to get attacked by a dog. Like the moment, like someone unleashes a dog on you, and it’s just like it’s so close…

He also spontaneously reported “this is fun.” He further explained that he could distinguish feelings in his body that would normally be associated with fear recognized and the absence of an actual threat, making the experience “fun”.

But wait, why were Emory neuroscientists Cory Inman, Jon Willie and Stephan Hamann and colleagues doing this? Read more

Posted on by Quinn Eastman in Neuro Leave a comment

For nanomedicine, cell sex matters

The biological differences between male and female cells may influence their uptake of nanoparticles, which have been much discussed as specific delivery vehicles for medicines.

Biomedical engineer Vahid Serpooshan, PhD

New Emory/Georgia Tech BME faculty member Vahid Serpooshan has a recent paper published in ACS Nano making this point. He and his colleagues from Brigham and Women’s Hospital and Stanford/McGill/UC Berkeley tested amniotic stem cells, derived from placental tissue. They found that female amniotic cells had significantly higher uptake of nanoparticles (quantum dots) than male cells. The effect of cell sex on nanoparticle uptake was reversed in fibroblasts. The researchers also found out that female versus male amniotic stem cells exhibited different responses to reprogramming into induced pluripotent stem cells (iPSCs).

Female human amniotic stem cells with nanoparticles .Green: quantum dots/ nanoparticles; red: cell staining; blue: nuclei.

“We believe this is a substantial discovery and a game changer in the field of nanomedicine, in taking safer and more effective and accurate steps towards successful clinical applications,” says Serpooshan, who is part of the Department of Pediatrics and the Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory.

Serpooshan’s interests lie in the realm of pediatric cardiology. His K99 grant indicates that he is planning to develop techniques for recruiting and activating cardiomyoblasts, via “a bioengineered cardiac patch delivery of small molecules.” Here at Emory, he joins labs with overlapping interests such as those of Mike Davis, Hee Cheol Cho and Nawazish Naqvi. Welcome!

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Toe in the water for Emory cryo-EM structures

Congratulations to Christine Dunham and colleagues in the Department of Biochemistry for their first cryo-electron microscopy paper, recently published in the journal Structure.

The paper solves the structure of a bacterial ribosome bound to a messenger RNA containing a loop that regulates translation. This process is important for the study of several neurological diseases such as fragile X syndrome, for example.

Christine Dunham, PhD

Dunham writes: “We are focusing on establishing this in bacteria to understand frameshifting and protein folding as a consequence of codon preference. We will then build up our knowledge to potentially study eukaryotic translational control.”

The paper neatly links up with two Nobel Prizes: the 2017 Chemistry prize for cryo-electron microscopy and the 2009 Chemistry prize for ribosome structure, awarded in part to Dunham’s mentor Venki Ramakrishnan. Also, see this 2015 feature from Nature’s Ewen Callaway outlining how cryo-EM is a must have for structural biologists wanting to probe large molecules that are difficult to crystallize.

Construction now underway in the Biochemistry Connector will allow installation of microscopes (worth $6 million) necessary for Dunham and others to do cryo-EM here at Emory, although she advises that it will be several months until they are photo-op ready. For the Structure paper, Dunham collaborated with George Skiniotis at University of Michigan; he recently moved to Stanford. Read more

Posted on by Quinn Eastman in Neuro, Uncategorized Leave a comment

Biomedical career fair April 13

We learned about this from Tami Hutto at BEST (Broadening Experiences in Scientific Training) and Maria Thacker Goethe at Georgia Bio . We will provide more information when it is available. Friday, April 13. Emory Conference Center + Hotel, 1615 Clifton.

Posted on by Quinn Eastman in Uncategorized Leave a comment

Elevated (but still low) troponin as a long term cardio biomarker

This weekend (March 10) at the American College of Cardiology meeting, data will emerge on whether expensive and much-discussed PCSK9 inhibitors can lower the risk of heart disease as much as they reduce LDL cholesterol.

To help doctors decide who should take cholesterol-lowering drugs that cost thousands of dollars a year, the focus of discussion could fall on risk models, such as the Framingham score and its successors, or other biomarkers besides various forms of cholesterol. What a coincidence! We have experts on those topics at Emory Clinical Cardiovascular Research Institute: ECCRI co-director Arshed Quyyumi, MD and Laurence Sperling, MD, Director of Preventive Cardiology at the Emory Clinic.

Cardiologists led by Quyyumi have a recent paper in Journal of the American Heart Association looking at troponin as a long-term cardiovascular disease biomarker. Troponin is familiar to cardiologists because it is a sign of acute damage to the heart muscle. If someone with chest pain goes to the emergency department of a hospital, a test for troponin in the blood can say whether a heart attack occurred.

However, as clinical tests for troponin have become more sensitive in the last decade, interpretation has moved past just a “yes/no” question. The levels of troponin now detectable are much smaller than those used to confirm a heart attack. Elevated troponin can be detected in all sorts of situations where the heart is under stress, including after strenuous exercise in healthy individuals. The “optimal cutoff” the Emory authors use in some of their statistical analyses is 5.2 picograms per milliliter. This graph, derived from a 2011 Circulation paper, illustrates just how low that is. Read more

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When circulating ambulances disappear

Someone driving around a city on a regular basis will see ambulances. At times they’re going somewhere fast; sometimes they’re just driving. What if, on a given day, fewer ambulances are visible?

One possible conclusion might be: the ambulances are away responding to a group of people who need help. This effect resembles what Arshed Quyyumi and colleagues from Emory Clinical Cardiovascular Research Institute observed in a recent paper, published in the Journal of the American Heart Association.

Arshed Quyyumi, MD

Quyyumi’s team looked at progenitor cells, which circulate in the blood and are attracted to sites of injury.  In a group of 356 patients with stable coronary artery disease, the researchers saw that some (31 percent) had “ExMI” – exercise-mediated myocardial ischemia. That means impairments in blood flow were visible via cardiac imaging under the stress of exercise. This is a relatively mild impairment; participants did not report chest pain. This paper emerges from the MIPS (Mental Stress Ischemia Prognosis) study, 2011-2014.

The ambulance-progenitor cell analogy isn’t perfect; exercise, generally a good thing, increases progenitor cell levels in the blood, says co-first author and cardiology fellow Muhammad Hammadah. The study supports the idea that patients with coronary artery disease may benefit from cardiac rehab programs, which drive the progenitor cells into the ischemic tissue, so they can contribute into vascular repair and regeneration. Read more

Posted on by Quinn Eastman in Heart 1 Comment

FMT microbial transplant for C diff gaining acceptance

In February, the Infectious Diseases Society of America issued new guidelines for fighting Clostridium difficile, the hardy bacterium that can cause life-threatening diarrhea and whose dominance is sometimes a consequence of antibiotic treatment. The guidelines recommend for the first time that FMT (fecal microbiota transplant) be considered for individuals who have repeatedly failed standard antibiotics.

In a nice coincidence, Emory FMT specialists Colleen Kraft and Tanvi Dhere recently published a look at their clinical outcomes with C diff going back to 2012, in Clinical Infectious Diseases. They report 95 percent of patients (122/128) indicated they would undergo FMT again and 70 percent of the 122 said they would prefer FMT to antibiotics as initial treatment if they were to have a recurrence. Read more

Posted on by Quinn Eastman in Immunology Leave a comment

Give a zap to Emory brain research for #STATMadness

Next week, we will be asking the Emory research community to support Emory’s entry in a contest. It’s like “Battle of the Bands.” Whoever gets the loudest cheers wins. We have some intriguing neuroscience research. Please help!

STAT Madness is a “March Madness” style bracket competition, but with biomedical research advances as competitors. Universities or research institutes nominate their champions, research that was published the previous year.

Our entry for 2018:

Direct amygdala stimulation can enhance human memory

The findings, from Cory Inman, Jon Willie and colleagues from the Department of Neurosurgery and Joe Manns from Psychology, were the first published example of electrical brain stimulation in humans giving an event-specific boost to memory lasting overnight. The research was conducted with epilepsy patients undergoing an invasive procedure for seizure diagnosis. However, the technology could one day be incorporated into a device aimed at helping those with memory impairments, such as people with traumatic brain injury or neurodegenerative diseases.

Extra note: you may have seen similar neuroscience research in a recent Nature Communications paper, which was described in the New York Times. Cory Inman had some comments below — he and neurosurgeon Robert Gross were co-authors:

The localization to the left lateral temporal cortex was interesting, because it hadn’t been identified as a region that modulates episodic or hippocampus-dependent memory. [The Emory authors stimulated the amygdala.] The more recent paper found a similar size of memory enhancement, with a slightly different and harder memory task of free recall, using “closed-loop” stimulation based on whether the brain is in a ‘bad’ encoding state. It’s possible that closed-loop stimulation could be used with the amygdala as well. 

Emory’s first opponoent is University of California, San Francisco. We are about half way down on the right side of the bracket.

As far as voting, you can fill out a whole bracket or you can just vote for Emory, along with other places you may feel an allegiance to. The contest will go several rounds. The first round begins on February 26. If Emory advances, then people will be able to continue voting for us starting March 2.

At the moment, you can sign up to be reminded to vote with an email address at:
https://signup.statnews.com/stat-madness

Starting Monday, February 26, you can follow the 2018 STAT Madness bracket and vote here:
https://www.statnews.com/feature/stat-madness/bracket/

Please share on social media using the hashtag #statmadness2018.

STAT is a life sciences-focused news site, launched in 2015 by the owner of the Boston Globe. It covers medical research and biotech nationally and internationally. Emory took part in 2017’s contest, with Tab Ansari’s groundbreaking work on SIV remission, a collaboration with Tony Fauci’s lab at NIAID.

 

 

Posted on by Quinn Eastman in Neuro Leave a comment

Nox-ious link to cancer Warburg effect

At Emory, Kathy Griendling’s group is well known for studying NADPH oxidases (also known as Nox), enzymes which generate reactive oxygen species. In 2009, they published a paper on a regulator of Nox enzymes called Poldip2. Griendling’s former postdoc, now assistant professor, Alejandra San Martin has taken up Poldip2.

Griendling first came to Nox enzymes from a cardiology/vascular biology perspective, but they have links to cancer. Nox enzymes are multifarious and it appears that Poldip2 is too. As its full name suggests, Poldip2 (polymerase delta interacting protein 2) was first identified as interacting with DNA replication enzymes.  Poldip2 also appears in mitochondria, indirectly regulating the process of lipoylation — attachment of a fatty acid to proteins anchoring them in membranes. That’s where a recent PNAS paper from San Martin, Griendling and colleagues comes in. It identifies Poldip2 as playing a role in hypoxia and cancer cell metabolic adaptation.

Part of the PNAS paper focuses on Poldip2 in triple-negative breast cancer, more difficult to treat. In TNBC cells, Poldip2’s absence appears to be part of the warped cancer cell metabolism known as the Warburg effect. Lab Land has explored the Warburg effect with Winship’s Jing Chen.

Posted on by Quinn Eastman in Cancer, Heart Leave a comment

Viral vectors ready for delivery

The phrase “viral vector” sounds ominous, like something from a movie about spies and internet intrigue. It refers to a practical delivery system for the gene of your choice. If you are a biomedical researcher and you want to tweak genes in a particular part of the body in an experimental animal, viral vectors are the way to go.

Viral vector-transduced retinal ganglion cell; dendrites and axons labeled with GFP. Courtesy Felix Struebling via Xinping Huang

Emory’s Viral Vector Core was started when eminent neuroscientist Kerry Ressler was at Emory and is now overseen by geneticist Peng Jin. Technical director Xinping Huang and her colleagues can produce high-titer viral vectors, lentivirus and AAV. Discuss with her the best choice. It may depend on the size of the genetic payload you want to deliver and whether you want the gene to integrate into the genome of the target cell.

As gene therapy and CRISPR/Cas9-style gene editing research progresses, we can anticipate demand for services such as those provided by the Viral Vector Core. [Clinical applications are close, but will not be dealt with in the same place!] Read more

Posted on by Quinn Eastman in Neuro Leave a comment