Quinn Eastman

Sidestepping the placebo effect when studying depression

Research on depression must deal with a major obstacle: the placebo effect. This is the observation that patients improve in response to the sugar pills given as controls in clinical studies.

Clinical trial designers can incorporate various clever strategies to minimize the placebo effect, which is actually comprised of several statistical and psychological factors. Investigators can try to enhance, dissect or even “harness” them. [A recent piece in the New York Times from Jo Marchant focuses on the placebo effect in studies of pain relief.]

Emory psychiatrist Andrew Miller and his team have been developing a different approach over the last few years: studying symptoms of depression in people who are being treated for something else. This allows them to sidestep, at least partially, the cultural construct of depression, from William Styron to Peter Kramer to direct-to-consumer television ads.

Interferon alpha, a treatment used against hepatitis C virus infection and some forms of cancer, is a protein produced by the immune system that spurs inflammation. It also can induce symptoms of depression, such as fatigue and malaise. There are some slight differences with psychiatric depression, which Miller’s team describes here (less guilt!), but they conclude that there is a “high degree of overlap.”

Miller and his colleagues, including Jennifer Felger and Ebrahim Haroon, have documented how interferon-alpha-induced inflammation affects the brains of hepatitis C and cancer patients in several papers. That research, in turn, informs their more recent fruitful investigations of inflammation in the context of major depression. More on that soon.

Posted on January 13, 2016 by Quinn Eastman in Immunology, Neuro Leave a comment

NINDS director: neuroscience now largest ‘bucket of money’

On Friday, NINDS director Walter Koroshetz made an interesting remark in a lecture to Emory’s Department of Neurology. He said that in the 2016 National Institues of Health budget, neuroscience is now the largest “bucket of money,” especially with the recent boost in funding for Alzheimer’s research. That’s larger than the bucket for cancer. To be sure, biomedical research in general got a boost from Congress, with the NIH receiving its largest increase in a decade, and cancer is still a big deal!

Koroshetz explained that neuroscience research is spread out among NINDS (National Institute for Neurological Disorders and Stroke), NIMH (National Institute of Mental Health), NIDA (National Institute for Drug Abuse) and several others, while cancer research is concentrated at the National Cancer Institute. [Here’s some official category tracking that the NIH does – his breakdown checks out.]

Koroshetz highlighted a project from Dieter Jaeger and Garret Stanley that is part of the White House’s BRAIN Initiative focused on mapping brain circuits and connectivity. He also noted NINDS’s efforts in promoting translational research, since pharmaceutical companies were frustrated by repeated failures in the 1990s with difficult areas such as stroke, and the R35 mechanism for funding “outstanding investigators” for up to eight years continuously.

Posted on January 12, 2016 by Quinn Eastman in Neuro 2 Comments

Device for viewing glowing brain tumors

People touched by a brain tumor — patients, their families or friends — may have heard of the drug Gliolan or 5-ALA, which is taken up preferentially by tumor cells and makes them fluorescent. The idea behind it is straightforward: if the neurosurgeon can see the tumor’s boundaries better during surgery, he or she can excise it more thoroughly and accurately.

5-ALA is approved for use in Europe but is still undergoing evaluation by the U.S. FDA. A team at Emory was the first to test this drug in the United States. [Note: A similar approach, based on protease activation of a fluorescent probe, was reported last week in Science Translational Medicine.]

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A hand-held device to detect glowing brain tumors could allow closer access to the critical area than a surgical microscope

Biomedical engineer Shuming Nie and colleagues recently described their development of a hand-held spectroscopic device for viewing fluorescent brain tumors. This presents a contrast with the current tool, a surgical microscope — see figure.

Nie’s team tested their technology on specimens obtained from cancer surgeries. Their paper in Analytical Chemistry reports:

The results indicate that intraoperative spectroscopy is at least 3 orders of magnitude more sensitive than the current surgical microscopes, allowing ultrasensitive detection of as few as 1000 tumor cells. Read more

Posted on January 11, 2016 by Quinn Eastman in Cancer Leave a comment

Ancient protein flexibility may drive ‘new’ functions

A mechanism by which stress hormones inhibit the immune system, which appeared to be relatively new in evolution, may actually be hundreds of millions of years old.

A protein called the glucocorticoid receptor or GR, which responds to the stress hormone cortisol, can take on two different forms to bind DNA: one for activating gene activity, and one for repressing it. In a paper published Dec. 28 in PNAS, scientists show how evolutionary fine-tuning has obscured the origin of GR’s ability to adopt different shapes.

“What this highlights is how proteins that end up evolving new functions had those capacities, because of their flexibility, at the beginning of their evolutionary history,” says lead author Eric Ortlund, PhD, associate professor of biochemistry at Emory University School of Medicine.

GR is part of a family of steroid receptor proteins that control cells’ responses to hormones such as estrogen, testosterone and aldosterone. Our genomes contain separate genes encoding each one. Scientists think that this family evolved by gene duplication, branch by branch, from a single ancestor present in primitive vertebrates. Read more

Posted on January 7, 2016 by Quinn Eastman in Heart, Immunology Leave a comment

Grady Trauma Project — DICER link to PTSD plus depression

Violence and trauma are certainly not gifts, but scientifically, the Grady Trauma Project keeps on giving, even after co-director Kerry Ressler’s 2015 move to Massachusetts. Research at Emory on the neurobiology of post-traumatic stress disorder (PTSD) continues. This Nature Communications paper, published in December with VA-based psychiatrist Aliza Wingo as lead author, is an example.

Three interesting things about this paper:

  1. The focus on PTSD co-occurring with depression. As the authors note, several studies looking at traumatized individuals found PTSD and depression together more often than they were present separately. This was true of Atlanta inner city residents in the Grady Trauma Project, veterans and survivors of the 2001 World Trade Center attack.
  2. DICER: the gene whose activity is turned down in blood samples from people with PTSD plus depression. Its name evokes one of the three Fates in Greek mythology, Atropos, who cuts the thread of life. DICER is at the center of a cellular network of regulation, because it is part of the machinery that generates regulatory micro-RNAs.
  3. The findings recapitulate work in mouse models of stress and its effects on the brain, with a connection to the many-tentacled Wnt signaling/adhesion protein beta-catenin.

Some past posts on the Grady Trauma Project’s scientific fruits follow. Read more

Posted on January 5, 2016 by Quinn Eastman in Neuro Leave a comment

IgG4-related means mysterious

Emory rheumatologist Arezou Khosroshahi was the lead author on a differential diagnosis case report in New England Journal of Medicine published in October, which describes an example of IgG4-related disease. This autoimmune condition’s name was agreed upon only recently, at an international conference she co-directed in 2011.

This review calls IgG4-related disease an “orphan disease with many faces.” It sounds like each case has the potential to be an episode of House. As Khosroshahi explains:

“Most patients undergo invasive procedures for resection or biopsy of the affected organ to exclude other conditions. Unfortunately, most of those patients get dismissed by the clinicians, given the good news that their disease was not malignancy. Many of them have recurrence of the condition in other organs after a few months or years.”

Arezou Khosroshahi, MD

Rheumatologist Arezou Khosroshahi, MD

In the case report, a woman was admitted to Massachusetts General Hospital, because of shoulder and abdominal pain and an accumulation of fluid around her lungs. Surgeons removed a softball-sized mass from her right lung. The mass did not appear to be cancerous, but instead seemed to be the result of some kind of fibrous inflammation, and the patient was treated with antibiotics. Read more

Posted on January 5, 2016 by Quinn Eastman in Immunology 3 Comments

Looking back – Lab Land Top 10 posts in 2015

Happy New Year, and thank you for reading Emory Lab Land. Here are the top ten posts during 2015, according to Google Analytics. I pledge to bring you more quirky and insightful research, striking images and explanations of hard-to-grasp concepts in 2016.

  1. Hypersomnia update: beyond subject one [post is from summer of 2014, reflects long tail/lasting interest from hypersomnia community]
  2. Anticancer drug strategy: making cells choke on copper
  3. Microbiome enthusiasm at Emory
  4. The unsweetened option [Not about iced tea, but about low-sugar diet and fatty liver disease]
  5. Fragile X regulation is a finely tuned machine
  6. Stem cell/cardiology researcher Hee Cheol Cho joins Emory
  7. There will be micro particles (in stored blood)
  8. Hypersomnia update: clarithromycin study
  9. Gabbing about GABA — implications for hypersomnia treatments
  10. Nudging physician behavior on antibiotic orders
Posted on December 30, 2015 by Quinn Eastman in Uncategorized Leave a comment

Emory labs on LabTV

This summer, video producers from the web site LabTV came to two laboratories at Emory. We are pleased to highlight the first crop of documentary-style videos.

LabTV features hundreds of young researchers from universities and institutes around the United States, who tell the public about themselves and their research. The videos include childhood photos and explanations from the scientists about what they do and what motivates them. Screen Shot 2015-12-18 at 9.14.51 AM

The two Emory labs are: Malu Tansey’s lab in the Department of Physiology, which studies the intersection of neuroscience and immunology, focusing on neurodegenerative disease, and Mike Davis’ lab in the Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory, which is developing regenerative approaches and technologies for heart disease in adults and children. Read more

Posted on December 18, 2015 by Quinn Eastman in Heart, Immunology, Neuro Leave a comment

‘Mountain of data’ on flu vaccine responses

Bali Pulendran’s lab at Emory Vaccine Center teamed up with UCSD researchers and recently published a huge analysis of immune responses after seasonal flu vaccination (Immunity is making it available free this week, no subscription needed). Hundreds of volunteers at the Vaccine Center’s Hope Clinic took part in this study.

Note — this study looked at antibody responses to flu vaccines, but didn’t assess protection: whether study participants actually became sick with flu or not.

Our write-up is here. Immunity’s preview, from the Karolinska Institute’s Petter Brodin, is here, Cell Press’s press release is here.

Three points we wanted to call attention to:

*Long-lasting antibodies A surprising finding was how the “molecular signatures” that predict the strength of the immune response a few weeks after vaccination did not predict how long anti-flu antibodies stayed around. Instead, a separate set of signatures predicted the durability of antibody levels.

These distinct signatures may be connected with how plasma cells, responsible for antibody production, need to find homes in the bone marrow. That sounds like the process highlighted by Eun-Hyung Lee and colleagues in an Immunity paper published in July. In bone marrow samples from middle-aged volunteers, her team had found antibody-secreting cells that survive from childhood infections.

*Interfering (?) activation of NK cells/monocytes in elderly While the researchers found people older than 65 tended to have weaker antibody responses to vaccination, there were common elements of molecular signatures that predicted strong antibody responses in younger and older volunteers. However, elderly volunteers tended to have stronger signatures from immune cells that are not directly involved in producing antibodies (monocytes and ‘natural killer’ cells), both at baseline and after vaccination.

From the discussion: “This indicates a potential connection between the baseline state of the immune system in the elderly and reduced responsiveness to vaccination.” Additional comments on this from Shane Crotty in Brad Fikes’ article for the Union Tribune.

*The mountain of data from this and similar studies is available for use by other researchers on the web site ImmPort.

Posted on December 16, 2015 by Quinn Eastman in Immunology Leave a comment

Metagenomics explainer

A term we heard a bunch at the Emory Microbiome Symposium in November was “metagenomics”. Time for an explainer, with some help from Emory geneticist Tim Read.

Nature Reviews Microbiology defines metagenomics as “genomic analysis of microbial DNA that is extracted directly from communities in environmental samples.”

This technology — genomics on a huge scale — enables a survey of the different microorganisms present in a specific environment, such as water or soil, to be carried out. Metagenomics is also emerging as a tool for clinical diagnosis of infectious diseases.

Read notes that the term specifically refers to “shotgun” sequencing of environmental DNA.

“The shotgun approach is to randomly sample small pieces of the DNA in the tube, no matter which organism they came from,” he says. “The output is a mélange of different genes from bacteria, viruses, fungi, plants and humans.  The data is fascinating but the analysis is daunting.” Read more

Posted on December 15, 2015 by Quinn Eastman in Uncategorized 1 Comment
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