Neuropil Variation in the Prefrontal, Motor, and Visual Cortex of Six Felids

Abstract

<b><i>Introduction:</i></b> Felids have evolved a specialized suite of morphological adaptations for obligate carnivory. Although the musculoskeletal anatomy of the Felidae has been studied extensively, the comparative neuroanatomy of felids is relatively unexplored. Little is known about how variation in the cerebral anatomy of felids relates to species-specific differences in sociality, hunting strategy, or activity patterns. <b><i>Methods:</i></b> We quantitatively analyzed neuropil variation in the prefrontal, primary motor, and primary visual cortices of six species of Felidae (<i>Panthera leo, Panthera uncia, Panthera tigris, Panthera leopardus, Acinonyx jubatus</i>, <i>Felis sylvestris domesticus</i>) to investigate relationships with brain size, neuronal cell parameters, and select behavioral and ecological factors. Neuropil is the dense, intricate network of axons, dendrites, and synapses in the brain, playing a critical role in information processing and communication between neurons. <b><i>Results:</i></b> There were significant species and regional differences in neuropil proportions, with African lion, cheetah, and tiger having more neuropil in all three cortical regions in comparison to the other species. Based on regression analyses, we find that the increased neuropil fraction in the prefrontal cortex supports social and behavioral flexibility, while in the primary motor cortex, this facilitates the neural activity needed for hunting movements. Greater neuropil fraction in the primary visual cortex may contribute to visual requirements associated with diel activity patterns. <b><i>Conclusion:</i></b> These results provide a cross-species comparison of neuropil fraction variation in the Felidae, particularly the understudied <i>Panthera</i>, and provide evidence for convergence of the neuroanatomy of <i>Panthera</i> and cheetahs.