Study explains behavioral reaction to painful experiences

Study explains behavioral reaction to painful experiences
Two different groups of parabrachial neurons, one expressing calcitonin gene-related peptide (green) and the other expressing substance P (red). Credit: Arnab Barik, Chesler Laboratory, NCCIH

Exposure to uncomfortable sensations elicits a wide range of appropriate and quick reactions, from reflexive withdrawal to more complex feelings and behaviors. To better understand the body's innate response to harmful activity, researchers at the National Center for Complementary and Integrative Health (NCCIH), part of the National Institutes of Health, have identified activity in the brain that governs these reactions. Using heat as the source of discomfort, experiments conducted by the center's intramural program showed that bodily responses to pain are controlled by a neural pathway involving heightened activity in the spinal cord and two parts of the brainstem. Results of the study were published in the journal Neuron.

"Much is known about local for simple reflexive responses, but the mechanisms underlying more complex behaviors remain poorly understood," said Alexander T. Chesler, Ph.D., a Stadtman Investigator at NCCIH and senior author of the study. "We set out to describe the brain pathway that controls motor responses and involuntary behaviors when the body is faced with painful experiences."

Just as people respond to increasingly uncomfortable surfaces like a sandy beach on a hot day by lifting their feet, hopping, and eventually running to a water source, so, too, do laboratory models show a predictable sequence of behaviors. Experiments showed that the parts of a brainstem involved in this circuit are the parabrachial nucleus (PBNI) and the dorsal reticular formation in the medulla (MdD). A specific group of nerve cells in the PBNI is activated by standing on a hot surface, triggering escape responses through connections to the MdD. These PBNI cells express a gene called Tac1, which codes for substances called tachykinins that participate in many functions in the body and contribute to multiple disease processes. The MdD cells involved in this circuit also express Tac1. A different group of cells in the PBNI participates in the aspects of the response to noxious heat that involve the forebrain.

"Our data provide evidence that the PBNI produces streams of information with distinct functional significance," said Arnab Barik, Ph.D., postdoctoral fellow at NCCIH and one of the study's authors. "The -spinal cord pathway identified in this study selectively controls pain response and elicits appropriate behaviors based on sensory input."

Added Chesler, "This kind of feed-forward circuitry is unique because it is an upward spiral. The more this pathway is activated by harmful activity, the more it reacts, leading to dramatic behavioral responses."

Knowledge of this brain activity provides new insight into how the body responds to harmful, painful stimuli. The mechanism described in this study can help researchers better understand how pain is encoded in the brain. Further investigation of this circuit may increase understanding of how responses to pain are coordinated with other biological needs, such as feeding and reproduction. These findings may also offer opportunities to understand how the body becomes dysregulated during chronic pain.

This press release describes a basic research finding. Basic research increases our understanding of human and biology, which is foundational to advancing new and better ways to prevent, diagnose, and treat disease. Science is an unpredictable and incremental process—each research advance builds on past discoveries, often in unexpected ways. Most clinical advances would not be possible without the knowledge of fundamental basic research.


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More information: Arnab Barik et al. A Brainstem-Spinal Circuit Controlling Nocifensive Behavior, Neuron (2018). DOI: 10.1016/j.neuron.2018.10.037
Provided by National Institutes of Health
Citation: Study explains behavioral reaction to painful experiences (2018, November 19) retrieved 16 January 2019 from https://medicalxpress.com/news/2018-11-behavioral-reaction-painful.html
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