(599.1) Effects of pituitary hormones deficiency from the specific pituitary lobes on learning, memory and survival behavior in the Wistar rat

Poster Board Number: E414

Andrés Quintanar-Stephano (Universidad Autonoma de Aguascalientes), Adrian Limón-Mendoza (Universidad Autónoma de Aguascalientes), Martín López-Rico (Universidad Autónoma de Aguascalientes), José Muñoz-Tabares (Universidad Autónoma de Aguascalientes), Norma Ramírez-Rojas (Universidad Autónoma de Aguascalientes)

The role of the different adenohypophyseal hormones (GH, PRL, ACTH, TSH, LH and FSH) and neurohypophyseal (AVP and OXY) hormones on animal behavior, memory and learning have been stablished, however the role of lobe-specific hormones on these cerebral functions has been not completely dilucidated. Here we study the specific pituitary hormone deficiencies in hypophysectomized (HYPOX), with anterior lobectomized (AL) and neurointermediate lobectomized (NIL) rats, subject to novel object recognition (NOR), forced swim (FS) and prepulse inhibition (PPI) tests. For comparisons the intact control (IC) and sham operated (SHAM) groups were also included. The NOR test that evaluate different phases of learning and memory in rodents, showed that memory discrimination index (DI) significantly increased in the NIL group, indicating that AVP and OXY deficiency negatively affect the ability of short and medium-term memory. The FS test assess survival and motivation behavior; results showed that AL, NIL and HYPOX groups induced a loss in motivation and will to survive (increased immobility time); these observations may be partially explained by: 1) the significant deficiency of metabolic hormones (GH, ACTH-corticosterone, TSH-thyroid hormones and LH-FSH-testosterone hormones) whose decrease also induced significant loss in both mass muscle and body weight in AL and HYPOX groups and, 2) the decreased survival and motivational behavior induced by the AVP and OXY deficiency (NIL-induced), thus supporting the view of the motivational and survival role of these hormones. The IPP test evaluates the rat ability to respond to potentially harmful acoustic stimuli and long-term memory; results showed that AL animals did not show any sign of learning (expressed as very low inhibition percentage), whereas, interestingly, the HYPOX group (without any pituitary hormones) the long-term memory was not significantly affected. In conclusion these results support the important role of the several pituitary hormones mainly neurohypophyseal hormones (AVP and OXY) controlling important brain functions necessary for learning, memory, and survival. These experimental models will allow in the future to study specifically the role of each pituitary hormone on the different aspects of animal behavior such as memory, motivation, generosity, adaptation, among others. 

Support or Funding Information

Supported by UAA-PIFF19-2 (AQS).





FIGURE 1. (1) Results of NOR test, high discrimination index means a loss in short-term memory. (p < 0.05; IC, SHAM and AL vs NIL. NS; AL vs HYPOX). (2) Results of FS test, high immobility time means a loss in motivational and survival behaviors. (p < 0.05; IC and SHAM vs AL, NIL and HYPOX) (3). Results at day 5 of the PPI test, a low percentage of inhibition reflects a low capacity for learning, long-term memory and capacity to adapt to harmful stimuli. (p < 0.05, IC, SHAM, NIL and HYPOX vs AL).; FIGURE 2. (1) Forced swimm (FS) test (2) Novel object recognition (NOR) test (3). Prepulse inhibition (PPI) test.