Rare disease diagnosis, accelerated by social media

Seth Mnookinâ€™s long piece in the New Yorker, on how social media accelerated the diagnosis of several children with a rare genetic disorder, is getting a lot of praiseÂ this week.Â This is the same story that was on CNN.com in March, titled â€œKids who donâ€™t cryâ€, and that Emory Genetics Laboratory director Madhuri Hedge mentioned as a recent diagnostic success for the technique of whole exome sequencing.

Briefly: parents of or doctors treating several children with a previously unknown metabolic disorder, with multiple symptoms — absent tear production, developmental delay, movement deficits, digestiveÂ problems etc — found each other via Internet searches/blog posts. The problems were traced back to mutations in the NGLY1 gene.

Emory geneticists Michael Gambello, Melanie Jones (now at the Greenwood Genetic Center in South Carolina) and Hegde are co-authors on the Genetics in Medicine paper that lays everything out scientifically.

Gambello, Jones and HegdeÂ were responsible for sequencing the DNA of a North Georgia family (they live inÂ Jackson County), whose members are mentioned in Mnookinâ€™s piece. The Gambello lab is developing an animal model of NGLY1 deficiency and is studying the mechanisms of how NGLY1 deficiency affects brain development.

Posted on July 18, 2014 by Quinn Eastman in Neuro Leave a comment

Flashback to LSD research from the 1950s

Accompanying Kai Kupferschmidtâ€™s July 3 feature in Science, which discusses a current revival of clinical research on hallucinogens such as LSD and psilocybin, was a curious historical photo. The 1955 copyrightedÂ photo depicts pharmacologist Harry Williams squirting LSD into the mouth of Carl Pfeiffer, chair of pharmacology at Emory during the 1950â€™s. Read more

Posted on July 11, 2014 by Quinn Eastman in Uncategorized Leave a comment

Hunting for potential diabetes drugs

Pathologist Keqiang Ye and his colleagues have been prolific in finding small molecules able to mimic the action of the brain growth factor BDNF. Aiming to export that success to similar molecules (that is, other receptor tyrosine kinases), they have been searching for potential drugs able to substitute for insulin.

Diabetes drugs Januvia (sitagliptin) and Lantus (insulin analog) are top 20 drugs, both in terms of dollars and monthly prescriptions, and the inconvenience of insulin injection is well known, so the business potential is clear.

A paper published in the journal Diabetes in April describes Ye’s team’s identification of a compound called chaetochromin A, which was originally isolated by Japanese researchers studying toxins found in moldy rice. Chaetochromin A can drive down blood sugar in normal, type 1 diabetes and type 2 diabetes mouse models, the authors show.

See here for another compound identified in Ye’s labÂ with similar properties.

Posted on July 9, 2014 by Quinn Eastman in Uncategorized Leave a comment

CRISPR gene editing can miss its mark

Yanni Lin, TJ Cradick, Gang Bao and colleagues from Georgia Tech and Emory reported recently in Nucleic Acids Research on how the CRISPR/Cas9 gene editing system can sometimes miss its mark.

CRISPR/Cas9 has received abundant coverageÂ fromÂ science-focused mediaÂ outlets.Â Basically, it is a convenient system for cutting DNA in cells in a precise way. This paper shows that the CRISPR/Cas9 system can sometimes cut DNA in places that donâ€™t exactly match the designed target.

Here we show that CRISPR/Cas9 systems can have off-target cleavage when DNA sequences have an extra base or a missing base at various locations compared with the corresponding RNA guide strandâ€¦Our results suggest the need to perform comprehensive off-target analysis by considering cleavage due to DNA and sgRNA bulges in addition to base mismatches.

CRISPR/Cas9 could be used to develop therapies for humans for genetic blood diseases such as sickle cell or thalassemia, and this paper does not change that potential. But the authors are cautioning fellow scientists that they need to design their tools carefully and perform quality control. Other investigators have made similarÂ findings.

Posted on June 30, 2014 by Quinn Eastman in Uncategorized Leave a comment

Evaluating a different way to measure LDL

What is the most important measurement of cholesterol or lipids in the blood, when it comes to cardiovascular disease risk? LDL-C [low density lipoprotein cholesterol], is often called â€œbad cholesterolâ€ because it is linked to atherosclerosis, but the landscape is always shifting. Even as cardiologists across the country get used to the new AHA/ACC guidelines, which callÂ for changes in how physicians and patients view LDL-C, new research is focusing attention on other related markers. For example, a recent pair of studies in the New England Journal of Medicine identify gene mutations that lower both triglycerides and heart disease risk, suggesting that drugs that target that gene pathway could be beneficial. A new paper in Atherosclerosis, coauthored by Emoryâ€™s Terry Jacobson, looks at LDL-P, a different way of looking at LDL that has been proposed to be a better measure of cardiovascular disease risk. Jacobson is director of the Office of Health Promotion and Disease Prevention at Grady Health Systems. Read more

Posted on June 26, 2014 by Quinn Eastman in Heart Leave a comment

Epigenetic changes in atherosclerosis

If someone living in America and eating a typical diet and leading a sedentary lifestyleÂ lets a few years go by, we can expect plaques of cholesterol and inflammatory cells to build up in his or her arteries. We’re not talking “Super-size Me” here, we’re just talking average American. But then let’s say that same person decides: “OK, I’m going to shape up. I’m going to eat healthierÂ and exercise more.”

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Let’s leave asideÂ whether low-carb or low-fat is best, and let’s say that person succeeds in sticking to his or her declared goals. How “locked in” are the changes in the blood vesselsÂ when someone has healthy or unhealthy blood flow patterns?

Biomedical engineer Hanjoong Jo and his colleagues published aÂ paper in Journal of Clinical Investigation that touches on this issue. They have an animal model where disturbed blood flow triggers the accumulation of atherosclerosis. They show that the gene expression changes in endothelial cells, which line blood vessels, have an epigenetic component.Â Specifically, the durable DNA modification known asÂ methylation is involved, and blocking DNA methylation with a drug used for treating some forms of cancer can prevent atherosclerosis in their model.Â This suggests that blood vessels retain an epigenetic imprint reflecting the blood flow patterns they see.

Although treating atherosclerosis with theÂ drug decitabine is notÂ a viable option clinically, Jo’s team was able to find severalÂ genes that are silenced by disturbed blood flow and that need DNA methylation to stay shut off. A handful of thoseÂ genes have aÂ common mechanism of regulationÂ and may be good therapeutic targets for drug discovery.

Posted on June 24, 2014 by Quinn Eastman in Heart Leave a comment

Cancer immunotherapy, meet chimera

In Greek mythology, the chimera was a monstrous fire-breathing creature composed of the parts of three animals: a lion, a snake and a goat.

Adoptive cell transfer is advancing as a cancer immunotherapy technique. It involves removing some of a patientâ€™s immune cells, culturing them in the laboratory, and then infusing the cells back into the patient. The idea is to enhance the ability of the immune cells to attack the tumors far beyond what the immune system was able of doing on its own.

Two promising examples are the National Cancer Instituteâ€™s approach of treating advanced melanoma with IL-2-stimulated immune cells, and several investigatorsâ€™ approach of genetically engineering T cells to attack leukemias or lymphomas.

Jacques Galipeau and colleagues at Winship Cancer Institute have developed a chimeric molecule for stimulating immune cells, which appears to have unique powers beyond simply the sum of its two parts. The molecule is called GIFT4, a fusion of the immune signaling molecules GM-CSF (often used in cancer treatment) and IL-4.

Posted on June 20, 2014 by Quinn Eastman in Cancer, Immunology Leave a comment

Parkinson’s drug discovery: visit the dopamine container store

In a recent PNAS paper, Gary Miller and colleagues at Rollins School of Public Health outline a potential therapeutic approach to Parkinsonâ€™s disease that Iâ€™m going to call the Container Store approach.

If you have a mess in your kitchen or basement workshop, you might need more or better containers to hold your tools. Analogously, problems in Parkinsonâ€™s disease can be traced back to a lack of effective containers for the brain communication chemical dopamine.

Posted on June 18, 2014 by Quinn Eastman in Neuro Leave a comment

Charlotte Observer highlights Lab Land

Thanks to Amber Veverka for featuring Lab Land as part of the Charlotte Observer’s regular look at science-oriented blogs. I reproduce my responses here to add some links.

Describe the range of health science research you are covering on Lab Land – and a little bit about your intended audience.

Any intriguing idea emerging from basic or clinical biomedical research happening at Emory. The blog is aimed at people who are somewhat familiar with biological concepts, like graduate students, postdocs or science journalists.

What are some of the most exciting advances you’ve recently written about?

Here are a few!

*Neuroscientists found that a mouse can pass on a learned sensitivity to a smell to its offspring

*Cardiologists discovered that heart muscle cells in mice grow in a dramatic spurt after birth, with implications for the treatment of congenital heart defects.

*Some peoplesâ€™ brains produce something that acts like a sleeping pill, giving them hypersomnia. Itâ€™s not clear what this mysterious brain chemical is yet.

*Less invasive epilepsy surgery involving lasers; seizure control with fewer cognitive side effects

*Biomedical engineers are developing ways to prevent stem cells from being washed out of the heart Read more

Posted on June 17, 2014 by Quinn Eastman in Uncategorized Leave a comment

Statins, prostate cancer and mitochondria

In honor of Fathersâ€™ Day, we are examining a connection between two older-male-centric topics: statins and prostate cancer.

Statins are a very widely prescribed class of drugs used to lower cholesterol levels, for the purpose of preventing cardiovascular disease. In cell culture, they appear to kill prostate cancer cells, but the epidemiological evidence is murkier. Statin effects on prostate cancer incidence have beenÂ up in the air, but recent reports point to the possibility that starting statins may slow progression, after a man has been diagnosed with prostate cancer.

Winship Cancer Institute researchers have some new results that shed some light on this effect. John Petros, Rebecca Arnold and Qian Sun have found that mutations in mitochondrial DNA make prostate cancer cells resistant to cell death induced by simvastatin [Zocor, the most potent generic statin]. Sun recently presented the results at the American Urological Association meeting in Orlando.

In other forms of cancer such as breast and lung cancer, genomic profiling can determine what DNA mutations are driving cancer growth and what drugs are likely to be effective in fighting the cancer. The prostate cancer field has not reached the same point, partly because prostate cancers areÂ not generallyÂ treated with chemotherapy until late in the game, Petros says. But potentially, information on mitochondrial mutations could guide decisions on whether to initiate statin (or another) therapy.

â€œThis is part of our soapbox,â€ heÂ says. â€œWhen we are looking at mutational effects on prostate cancer, letâ€™s be sure to include the mitochondrial genome.â€

Winship’s Carlos Moreno and his colleagues areÂ working on the related question of biomarkers that predict prostate cancer progression, after prostatectomy surgery and potentially after just a biopsy.

Posted on June 16, 2014 by Quinn Eastman in Cancer Leave a comment

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