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Lithium treats intellectual defects in mouse model of Bardet-Biedl Syndrome

 E-Mail IMAGE: Image of cilia in a mouse brain using Scanning Electron Microscopy, imaged and processed by Calvin S. Carter. view more  Credit: Calvin S. Carter Mice with symptoms that mimic Bardet-Biedl Syndrome (BBS) have difficulty with learning and generating new neurons in the hippocampus. However, according to a new study by Thomas Pak, Calvin Carter, and Val Sheffield of the University of Iowa, published April 22nd in the journal PLOS Genetics, these mental defects can be successfully treated with lithium. BBS is a rare genetic disorder that causes intellectual disability, vision loss and obesity, and sometimes kidney problems and extra fingers and toes. It is one of several ciliopathies, which are diseases that stem from defective cilia tiny, finger-like projections on the surface of cells that play important roles in moving fluids, sensing the environment and signaling between cells. Pak, Carter, Sheffield and colleagues wanted to learn more about how ciliop

SRC-3 is a novel regulator of human immune T regulatory cells

 E-Mail A study led by researchers at Baylor College of Medicine reveals a novel role of the steroid receptor coactivator 3 (SRC-3/NCOA3), a protein crucial for steroid hormone function and a prognostic marker for aggressive human breast and other cancers. The team discovered that SRC-3 also regulates human immune T regulatory cells (Tregs), which contribute to the regulation of the body s immunological activity by suppressing the function of other immune cells, including those involved in fighting cancer. The study, which appears in the journal Scientific Reports, shows that Tregs whose SRC-3 function was eliminated failed to suppress the activity of other immune cells in the lab. The authors anticipate that their findings may help in the fight against cancer in the future by leading to new approaches to inhibit Tregs activity which consequently would release immune attack in tumors.

SRC-3 is a novel regulator of human immune T regulatory cells

 E-Mail A study led by researchers at Baylor College of Medicine reveals a novel role of the steroid receptor coactivator 3 (SRC-3/NCOA3), a protein crucial for steroid hormone function and a prognostic marker for aggressive human breast and other cancers. The team discovered that SRC-3 also regulates human immune T regulatory cells (Tregs), which contribute to the regulation of the body s immunological activity by suppressing the function of other immune cells, including those involved in fighting cancer. The study, which appears in the journal Scientific Reports, shows that Tregs whose SRC-3 function was eliminated failed to suppress the activity of other immune cells in the lab. The authors anticipate that their findings may help in the fight against cancer in the future by leading to new approaches to inhibit Tregs activity which consequently would release immune attack in tumors.

Iowa and Ohio team finds strategy to protect developing brain from prenatal stress in mice

 E-Mail New research from the University of Iowa and University Hospitals Cleveland Medical Center demonstrates that offspring can be protected from the effects of prenatal stress by administering a neuroprotective compound during pregnancy. Working in a mouse model, Rachel Schroeder, a student in the UI Interdisciplinary Graduate Program in Neuroscience, drew a connection between the work of her two mentors, Hanna Stevens, MD, PhD, UI associate professor of psychiatry and Ida P. Haller Chair of Child and Adolescent Psychiatry, and Andrew A. Pieper, MD, PhD, a former UI faculty member, now Morley-Mather Chair of Neuropsychiatry at Case Western Reserve University and Investigator and Director of the Neurotherapeutics Center at the Harrington Discovery Institute, University Hospitals Cleveland Medical Center.

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