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Presidnet's Award for Innovation in Research

President’s Award highlights innovative work by early-career researchers

Presidnet's Award for Innovation in Research

As part of Research and Education Week 2018, two Presidential awardees were recognized for their research contributions, Catherine “Katie” Forster, M.D., M.S., and Nathan Anthony Smith, Ph.D.

Catherine “Katie” Forster, M.D., M.S., and Nathan Anthony Smith, Ph.D., received the President’s Award for Innovation in Research honoring their respective research efforts to explore an understudied part of the microbiome and to shed light on an underappreciated player in nerve cell communication.

Drs. Forster and Smith received their awards April 19, 2018, the penultimate day of Research and Education Week 2018, an annual celebration of the excellence in research, education, innovation and scholarship that takes place at Children’s National Health System. This year marks the fifth time the President’s Award honor has been bestowed to Children’s faculty.

Dr. Forster’s work focuses on preventing pediatric urinary tract infections (UTIs). Frequently, children diagnosed with illnesses like spina bifida have difficulty urinating on their own, and they often develop UTIs. These repeated infections are frequently treated with antibiotics which, in turn, can lead to the child developing antibiotic-resistant organisms.

“The majority of the time if you culture these children, you’ll grow something. In a healthy child, that culture would indicate a UTI,” Dr. Forster says. “Children with neurogenic bladder, however, may test positive for bacteria that simply look suspect but are not causing infection. Ultimately, we’re looking for better ways to diagnose UTI at the point of care to better personalize antibiotic treatment and limit prescriptions for children who do not truly need them.”

Powered by new sequencing techniques, a research group that includes Dr. Forster discovered that the human bladder hosts a significant microbiome, a diverse bacterial community unique to the bladder. Dr. Forster’s research will continue to characterize that microbiome to determine how that bacterial community evolves over time and whether those changes are predictable enough to intervene and prevent UTIs.

“Which genes are upregulated in Escherichia coli and the epithelium, and which genes are upregulated by both in response to each other? That can help us understand whether genes being upregulated are pathogenic,” she adds. “It’s a novel and exciting research area with significant public health implications.”

Smith’s work focuses on the role of astrocytes, specialized star-shaped glial cells, in modulating synaptic plasticity via norepinephrine. Conventional thinking describes astrocytes as support cells but, according to Smith, astrocytes are turning out to be more instrumental.

Norepinephrine, a neurotransmitter that plays an essential role in attention and focus, is released by a process known as volume transmission, which is a widespread release of a neurotransmitter at once, says Smith, a principal investigator in Children’s Center for Neuroscience Research. Astrocytes, which outnumber neurons in the brain, are strategically and anatomically located to receive this diffuse input and translate it into action to modulate neural networks.

“We hypothesize that astrocytes are integral, functional partners with norepinephrine in modulating cortical networks,” Smith adds. “Since astrocytes and norepinephrine have been implicated in many central nervous system functions, including learning and attention, it is critical to define mechanistically how astrocytes and norepinephrine work together to influence neural networks. This knowledge also will be important for the development of novel therapeutics to treat diseases such as attention deficit hyperactivity disorder and epilepsy.”