Selective brain stem transections affecting reproductive behavior of female rats: The role of hypothalamic output to the midbrain

Abstract

In estrogen-treated, ovariectomized rats, selective transections were used to interrupt, together or separately, the medial and lateral pathways by which efferent fibers from the ventromedial nucleus (VMN) of the hypothalamus reach the lower brain stem. Dorsal hemisections placed to interrupt both projections reduced or eliminated lordotic behavior. Transections placed to intercept all of the medially descending fibers, but spare the lateral pathway, did not reduce lordosis in mating or manual stimulation tests. The lateral pathway was interrupted at two different locations. Parasagittal transections at the level of the VMN showed that the lateral pathway, as a whole, was not required for lordosis when the medial pathway was left intact. Also, no particular subset of fibers assuming a lateral trajectory from the VMN to the brain stem was required for the display of lordosis. However, the fibers running through the lateral brain stem do play some role in the expression of the reflex, and more caudal bilateral lateral transections did reduce lordotic behavior. The absence of lordosis in mating tests was not a result of a systematic increase in rejecting behaviors. The observation of intermittent lordotic responses, or improved lordotic behavior following additional treatment with estrogen and/or progesterone revealed that these laterally transected animals were still able to produce the motor pattern of lordosis. The deficits seen were attributed to the interruption of fibers mediating the control of lordosis by the hypothalamus. This role of the ventromedial nucleus can be described as a tonic, estrogen-dependent facilitation of supraspinal mechanisms which control lordosis and are located more caudally in the brain stem. The laterally descending VMN efferents may play a quantitatively more important role in the control of lordosis than the medially descending fibers.