Mouse lemurs are the smallest of the living primates, and are members of the understudied radiation of strepsirrhine lemurs of Madagascar. They are thought to closely resemble the ancestral primates that gave rise to present day primates. Here we have used multiple histological and immunochemical methods to identify and characterize sensory areas of neocortex in four brains of adult lemurs obtained from a licensed breeding colony. We describe the laminar features for the primary visual area (V1), the secondary visual area (V2), the middle temporal visual area (MT) and area prostriata, somatosensory areas S1(3b), 3a, and area 1, the primary motor cortex (M1), and the primary auditory cortex (A1). V1 has "blobs" with "nonblob" surrounds, providing further evidence that this type of modular organization might have evolved early in the primate lineage to be retained in all extant primates. The laminar organization of V1 further supports the view that sublayers of layer 3 of primates have been commonly misidentified as sublayers of layer 4. S1 (area 3b) is proportionately wider than the elongated area observed in anthropoid primates, and has disruptions that may distinguish representations of the hand, face, teeth, and tongue. Primary auditory cortex is located in the upper temporal cortex and may include a rostral area, R, in addition to A1. The resulting architectonic maps of cortical areas in mouse lemurs can usefully guide future studies of cortical connectivity and function.

Mouse lemurs are the smallest of extant primates and are thought to resemble early primates in many ways. We provide histological descriptions of the major sensory nuclei of the dorsal thalamus and the superior colliculus (SC) of mouse lemurs (Microcebus murinus). The dorsal lateral geniculate nucleus has the six layers typical of strepsirrhine primates, with matching pairs of magnocellular, parvocellular, and koniocellular layers, one of each pair for each eye. Unlike most primates, magnocellular and parvocellular layers exhibit only small differences in cell size. All layers express vesicular glutamate transporter 2 (VGLUT2), reflecting terminations of retinal inputs, and the expression of VGLUT2 is much less dense in the koniocellular layers. Parvalbumin is densely expressed in all layers, while SMI-32 is densely expressed only in the magnocellular layers. The adjoining pulvinar complex has a posterior nucleus with strong VGLUT2 expression, reflecting terminations from the SC. The SC is laminated with dense expression of VGLUT2 in the upper superficial gray layer, reflecting terminations from the retina. The ventral (MGNv), medial, and dorsal divisions of the medial geniculate complex are only moderately differentiated, although patches of dense VGLUT2 expression are found along the outer border of MGNv. The ventroposterior nucleus has darkly stained cells in Nissl stained sections, and narrow septa separating patchy regions of dense VGLUT2 expression that likely represent different body parts. Overall, these structures resemble those in other strepsirrhine primates, although they are smaller, with the sensory nuclei appearing to occupy proportionately more of the dorsal thalamus than in larger primates.