Kisspeptin enhances brain responses to olfactory and visual cues of attraction in men
Lisa Yang, Lysia Demetriou, Matthew B. Wall, Edouard G.A. Mills, David Zargaran, Mark Sykes, Julia K. Prague, Ali Abbara, Bryn M. Owen, Paul A. Bassett, Eugenii A. Rabiner, Alexander N. Comninos, Waljit S. Dhillo
Lisa Yang, Lysia Demetriou, Matthew B. Wall, Edouard G.A. Mills, David Zargaran, Mark Sykes, Julia K. Prague, Ali Abbara, Bryn M. Owen, Paul A. Bassett, Eugenii A. Rabiner, Alexander N. Comninos, Waljit S. Dhillo
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Research Article Endocrinology Neuroscience

Kisspeptin enhances brain responses to olfactory and visual cues of attraction in men

Abstract

Successful reproduction is a fundamental physiological process that relies on the integration of sensory cues of attraction with appropriate emotions and behaviors and the reproductive axis. However, the factors responsible for this integration remain largely unexplored. Using functional neuroimaging, hormonal, and psychometric analyses, we demonstrate that the reproductive hormone kisspeptin enhances brain activity in response to olfactory and visual cues of attraction in men. Furthermore, the brain regions enhanced by kisspeptin correspond to areas within the olfactory and limbic systems that govern sexual behavior and perception of beauty as well as overlap with its endogenous expression pattern. Of key functional and behavioral significance, we observed that kisspeptin was most effective in men with lower sexual quality-of-life scores. As such, our results reveal a previously undescribed attraction pathway in humans activated by kisspeptin and identify kisspeptin signaling as a new therapeutic target for related reproductive and psychosexual disorders.

Authors

Lisa Yang, Lysia Demetriou, Matthew B. Wall, Edouard G.A. Mills, David Zargaran, Mark Sykes, Julia K. Prague, Ali Abbara, Bryn M. Owen, Paul A. Bassett, Eugenii A. Rabiner, Alexander N. Comninos, Waljit S. Dhillo

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Figure 2

Olfactory task.

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Olfactory task. (A) Whole-brain analysis of enhanced blood oxygen level–...
(A) Whole-brain analysis of enhanced blood oxygen level–dependent (BOLD) activity by kisspeptin administration in response to a validated pleasant feminine scent (Chanel No5). Whole-brain voxel-wise analyses with cluster correction (Z 2.3, P < 0.05, and n = 33). (B) Kisspeptin enhancement of mean percentage of BOLD signal change in a priori anatomically defined ROI (amygdala: t(32) = 2.743, P = 0.01; caudate: t(32) = 2.615, P = 0.013; globus pallidus: t(32) = 2.566, P = 0.015; hippocampus: t(32) = 2.235, P = 0.033; insula: t(32) = 3.105, P = 0.004; orbitofrontal cortex: t(32) = 2.405, P = 0.022; posterior cingulate cortex: t(32) = 2.303, P = 0.028; putamen: t(32) = 2.702, P = 0.011; thalamus: t(32) = 2.787, P = 0.009). (C) Kisspeptin enhancement of mean percentage of BOLD signal change in functionally defined brain masks during the olfactory task. Olfactory system: t(32) = 2.81, P = 0.008; sexual arousal system: t(32) = 2.937, P = 0.006; motor system: t(32) = 1.601, P = 0.119. Gray indicates placebo; red indicates kisspeptin. Data in graphs (B and C) depict within-participant paired raw data, mean ± SEM. *P < 0.05, and **P < 0.01, paired 2-tailed t test.