Warren symposium follows legacy of geneticist giant

If we want to understand how the brain creates memories, and how genetic disorders distort the brain’s machinery, then the fragile X gene is an ideal place to start. That’s why the Stephen T. Warren Memorial Symposium, taking place November 28-29 at Emory, will be a significant event for those interested in neuroscience and genetics. Stephen T. Warren, 1953-2021 Warren, the founding chair of Emory’s Department of Human Genetics, led an international team that discovered Read more

Mutations in V-ATPase proton pump implicated in epilepsy syndrome

Why and how disrupting V-ATPase function leads to epilepsy, researchers are just starting to figure Read more

Tracing the start of COVID-19 in GA

At a time when COVID-19 appears to be receding in much of Georgia, it’s worth revisiting the start of the pandemic in early 2020. Emory virologist Anne Piantadosi and colleagues have a paper in Viral Evolution on the earliest SARS-CoV-2 genetic sequences detected in Georgia. Analyzing relationships between those virus sequences and samples from other states and countries can give us an idea about where the first COVID-19 infections in Georgia came from. We can draw Read more

graft-versus-host disease

Graft vs host? Target the aurora

 

Graft-vs-host disease is a common and potentially deadly complication following bone marrow transplants, in which immune cells from the donated bone marrow attack the recipient’s body.

Winship Cancer Institute’s Ned Waller and researchers from Children’s Healthcare of Atlanta and Yerkes National Primate Research Center were part of a recent Science Translational Medicine paper that draws a bright red circle around aurora kinase A as a likely drug target in graft-vs-host disease.

Aurora kinases are enzymes that control mitosis, the process of cell division, and were first discovered in the 1990s in yeast, flies and frogs. Now drugs that inhibit aurora kinase A are in clinical trials for several types of cancer, and clinicans are planning to examine whether the same type of drugs could help with graft-vs-host disease.

Leslie Kean, a pediatric cancer specialist at Seattle Children’s who was at Emory until 2013, is the senior author of the STM paper. Seattle Childrens’ press release says that Kean wears a bracelet around her badge from a pediatric patient cured of leukemia one year ago, but who is still in the hospital due to complications from graft-vs-host. Read more

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

CMV reactivation warps immune system after HSCT

As a followup to yesterday’s post on following troublemaker cells in patients with lupus, we’d like to highlight a recent paper in Blood that takes a similar approach to studying how the immune system comes back after bone marrow/blood stem cell transplant.

Leslie Kean, MD, PhD

The paper’s findings have implications for making this type of transplant safer and preventing graft-versus-host disease. In a bone marrow/blood stem cell transplant, to fight cancer, doctors are essentially clearing out someone’s immune system and then “planting” a new one with the help of a donor. What this paper shows is how much CMV (cytomegalovirus) distorts the new immune system.

CMV is often thought of as harmless — most adults in the United States have been infected with CMV by age 40 and don’t get sick because of it. But in this situation, CMV’s emergence from the shadows forces some of the new T cells to multiply, dominating the immune system so much that it creates gaps in the rest of the T cell repertoire, which can compromise protective immunity. Other seemingly innocuous viruses like BK cause trouble in immunosuppressed patients after kidney transplant.

The senior author, Leslie Kean, moved from Emory to Seattle Children’s Hospital in 2013, and her team began these studies here in 2010 (a host of Emory/Winship hematologists and immunologists are co-authors). This paper is sort of a mirror image of the Nature Immunology paper on lupus because it also uses next-generation sequencing to follow immune cells with DNA rearrangements — in this case, T cells. Read more

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