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GRA partnership promotes research collaboration, grows economy

June 30, 2010

“Other states wish they had what Georgia has: Research universities that work together, and a unified commitment from industry, government and academia to grow a technology-based economy,” states Michael Cassidy, president and CEO of the Georgia Research Alliance (GRA) in the GRA’s recent annual report.”

As one of six GRA universities, Emory has benefited from this unique partnership in numerous ways: through its 11 Eminent Scholars, multidisciplinary university and industry collaborations, and support for research in vaccines, nanomedicine, transplantation, neurosciences, pediatrics, biomedical engineering, clinical research, and drug discovery.

Emory is featured throughout the report, including

  • The Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory and its four eminent scholars, Xiaoping Hu, PhD, Eberhard Voit, PhD, Barbara Boyan, PhD and Don Giddens, PhD.
  • Emory transplant medicine expert and GRA Eminent Scholar Allan Kirk, MD, PhD, who collaborates with Andrew Mellor, PhD at the Medical College of Georgia on research to find enzymes that could keep the body from rejecting newly transplanted organs.
  • The Emory-University of Georgia Influenza Center of Excellence and its leading collaborators, GRA Eminent Scholar and Emory Vaccine Center Director Rafi Ahmed, PhD, and Emory microbiologist Richard Compans, PhD, along with UGA GRA Eminent Scholar Ralph Tripp.
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Pig stem cells: hope for Type 1 diabetes treatment

May 13, 2010

University of Georgia researchers recently reported on their work to create pigs with induced pluripotent stem cells. This type of cell, first developed about five years ago, has the ability to turn into any other kind of cell in the body.

An Emory transplant team, working with the UGA group, hopes to use this technology to develop pig islet cells as an alternative to human islets to treat patients with Type 1 diabetes. Type 1 diabetes usually occurs early in life and affects more than one million Americans who are unable to manufacture their own insulin because their pancreatic islets do not function.

Emory islet transplant team

The Emory Transplant Center has conducted clinical trials since 2003 transplanting human pancreatic islet cells into patients with Type I diabetes. Some of these patients have been able to give up insulin injections, either temporarily or permanently. Other sources of islets are needed for transplant though because of the large number of potential patients and because each transplant typically requires islets from several pancreases.

To create pigs using pluripotent stem cells, the UGA team injected new genes into pig bone marrow cells to reprogram the cells into functioning like embryonic stem cells. The resulting pluripotent cells were inserted into blastocysts (developing embryos), and the embryos were implanted into surrogate mothers. The resulting pigs had cells from the stem cell lines as well as the embryo donor in multiple tissue types.

The pluripotent stem cell process could allow researchers to make genetic changes to dampen or potentially eliminate the rejection of the pig islets by the human immune system.


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Biomedical engineering links Emory, Georgia Tech in medical discoveries

May 11, 2010

Larry McIntire, PhD

Despite its youth, the 20-year-old field of biomedical engineering is the fastest growing engineering academic program today. The joint Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory, with Larry McIntire as chair, has emerged on the forefront of biotechnology-related research and education.

“By integrating the fields of life sciences with engineering,” McIntire explains, “we can better understand the mechanisms of disease and develop new ways to diagnose and treat medical problems. We are working collaboratively in the fields of biomedical nanotechnology, predictive health, regenerative medicine, and health care robotics, among others.


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NIH director visits Emory, Atlanta Clinical & Translational Science Institute

April 21, 2010

David Stephens, MD, Jim Wagner, PhD, Earl Lewis, PhD, Francis Collins, MD, PhD

Dr. Francis Collins, director of the National Institutes of Health, and chief of staff Dr. Kathy Hudson, paid a daylong visit to Emory’s Woodruff Health Sciences Center, including Yerkes National Primate Research Center, and Morehouse School of Medicine on April 14.

The purpose of Collins’ visit was to view the activities of the Atlanta Clinical and Translational Science Institute, one of 46 national CTSAs funded by the NIH through the National Center for Research Resources (NCRR).  Collins also will visit CTSAs at Duke, UNC, and Vanderbilt in the future.

Collins asked that his visit focus on “how CTSAs are enabling science.” It was an opportunity for the ACTSI, a partnership among Emory, Morehouse School of Medicine, Georgia Institute of Technology and others, including Children’s Healthcare of Atlanta, Georgia Research Alliance, Georgia BIO, Kaiser Permanente, CDC, the Atlanta VA Medical Center and the Grady Health System, to showcase the unique contributions the ACTSI makes to enabling clinical and translational research.


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Moving flu vaccine research forward

April 12, 2010

The scientists in the lab of Richard Compans, PhD, professor of microbiology and immunology at Emory, are hard at work, imagining the unimaginable: A time when patients can self-administer flu vaccines. A time when vaccination does not require exposure to inactive viruses. A time when a universal vaccine could protect from all varieties of influenza: swine, avian, seasonal and strains still emerging.

Richard Compans, PhD (right), with colleague Mark Prausnitz, PhD, from Georgia Tech

But it’s not just hope that motivates them as they work. Emory’s scientists are fighting the clock against another possible future: a time of pandemic and uncontrollable virus mutation. The recent emergence of H1N1 and H5N1, known colloquially as swine flu and avian flu, have added an even greater sense of urgency to their task.

“The H5N1—the virus derived from avian species—has a 60 percent mortality,” says Emory microbiologist Sang-Moo Kang, PhD. Yet that strain of influenza hasn’t resulted in many human deaths, because, so far, avian flu spreads only to humans who are in contact with infected birds.


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Tailoring transplant drugs for children

February 10, 2010

For adult organ transplant recipients, juggling a lifetime regimen of immunosuppressant drugs is difficult enough, but for children it presents an even greater challenge.  These drugs, which also can have toxic side effects, must strike a delicate balance between preventing organ rejection and protecting from infections.

But children’s immune systems are still “learning” what distinguishes them from the world around them, and children are constantly developing and changing, both physically and emotionally. This puts them at greater risk for complications either through inappropriate medication or failure to take these drugs properly.

A grant from the National Institute of Allergy and Infectious Diseases (NIAID), through the American Recovery and Reinvestment Act (ARRA), will support new studies at Emory University and Children’s Healthcare of Atlanta to help clinicians tailor therapies specifically for children receiving transplants.  The project will include hiring of additional personnel to undertake these studies.

Allan D. Kirk, MD, PhD, is principal investigator of the project, which is supported by a two-year grant of nearly $1.65 million. Kirk is professor of surgery and pediatrics in Emory University School of Medicine and a Georgia Research Alliance Eminent Scholar. He also is vice chair of research in the Department of Surgery and scientific director of the Emory Transplant Center.

The ARRA-funded project will not only help determine which medications children should take, but also will give them the support to care for their transplanted organs.  The Emory scientists are studying new biological monitoring technologies that can identify unique ways to determine exactly how much medication a child really needs. These studies are being combined with a novel transition care clinic specializing in helping children cope with their illness and assuming responsibility for their care.

“This award indicates exceptional insight by the NIAID into the critical link between a child’s physical well-being and their emotional maturity,” says Kirk. “It will accelerate progress in this vital area of research for a very deserving subset of chronically ill children.”

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Lampreys’ alternative immune system

July 27, 2009

Lampreys are primitive creatures – basically, tubes with teeth. Their primitive nature makes them a fascinating entry-point for studying the evolution of the immune system.

At Emory, Max Cooper and his colleagues have been studying lampreys’ versions of white blood cells. In a recent Nature paper, they show that lampreys have two kinds of cells that look very much like B and T cells in mammals, birds and fish.

Non-immunologists may shrug at this revelation.  But consider: lampreys have a completely different set of tools for fighting infections. They have proteins in their blood that glob on to invaders, but they don’t look anything like the antibodies found in mammals, birds and fish.

Lampreys in a laboratory tank

Lampreys in a laboratory tank. Courtesy of Masa Hirano.

Similarly, lampreys have cells that look like T cells, in terms of some of the genes that are turned on. However, they don’t have MHC genes, which are important in human transplant medicine because they determine how and when T cells get excited and reject transplanted organs.

Lampreys are thought to be an early offshoot on the evolutionary tree, before sharks and fish, and way before critters that crawl on land. This suggests that the categories (B or T) came first even though the characteristic features of the cells (antibodies/responding to MHC) are different.

“Lampreys have the same types of cells, but they just use different building blocks to put them together,” Cooper says.

Cooper, now a Georgia Research Alliance Eminent Scholar and a member of Emory’s pathology department, made pioneering studies defining the role the thymus plays in immune development at the University of Minnesota in the 1960s. The thymus is where T cells develop and where they get their name.

He says he is now collaborating with Thomas Boehm in Freiburg, Germany to better understand the evolution of the thymus. Again, lampreys don’t have a thymus, but they may have an area next to their gills where the T-like cells develop.

John Travis at Science has a more extensive discussion of this research.

In a Darwin-anniversary essay, Travis tells the story of how the evolution of the immune system was a centerpiece of the 2005 Kitzmiller v. Dover trial, when a Pennsylviania school district’s requirement to teach intelligent design was successfully challenged.

Link to Sound Science podcast with Cooper

qeastman 27 July 2009 Research , No Comments