Noradrenergic projections regulate the acquisition of classically conditioned eyelid responses in wild-type and are impaired in kreisler mice

During embryonic development, heterozygous mutant kreisler mice undergo ectopic expression of the Hoxa3 gene in the rostral hindbrain, affecting the opioid and noradrenergic systems. In this model, we have investigated behavioral and cognitive processes in their adulthood. We confirmed that pontine and locus coeruleus neuronal projections are impaired, by using startle and pain tests and by analyzing immunohistochemical localization of tyrosine hydroxylase. Our results showed that, even if kreisler mice are able to generate eyelid reflex responses, there are differences with wild-types in the first component of the response (R1), modulated by the noradrenergic system. The acquisition of conditioned motor responses is impaired in kreisler mice when using the trace but not the delay paradigm, suggesting a functional impairment in the hippocampus, subsequently confirmed by reduced quantification of alpha2a receptor mRNA expression in this area but not in the cerebellum. Moreover, we demonstrate the involvement of adrenergic projection in eyelid classical conditioning, as clonidine prevents the appearance of eyelid conditioned responses in wild-type mice. In addition, hippocampal motor learning ability was restored in kreisler mice by administration of adrenergic antagonist drugs, and a synergistic effect was observed following simultaneous administration of idazoxan and naloxone.

Recovery of sciatic nerve with complete transection in rats treated with leuprolide acetate: A gonadotropin-releasing hormone agonist

It has been reported that the Gonadotropin-releasing hormone (GnRH) and its agonist leuprolide acetate (LA) can act as promoters of nerve regeneration. The aim of this study is to evaluate the effect of LA in a complete transection model. Sciatic nerve injury (SNI) was performed using a complete nerve transection and immediately repaired by epineural sutures. Rats were divided into three groups: SHAM, SNI treated with LA (SNI + LA) or saline solution (SNI + SS) for 5 weeks. Sciatic nerve regeneration was evaluated by kinematic gait analyzes, electrophysiological, morphological and biochemical tests. SNI + LA group had a functional recovery in kinematic gait, an increase in ankle angle value and a faster walking speed, compound muscle action potential amplitude, nerve conduction velocity (NCV). Furthermore, the number of myelinated axons and microtubule-associated protein 2 (MAP-2) expression were also higher compared to SS group. In conclusion, LA treatment improves of gait, walking speed, NCV, axons morphometry and MAP-2 expression in rats with sciatic nerve complete transection. These results suggest that LA can be a potential treatment for peripheral nerve injuries.

The kreisler mutation leads to the loss of intrinsically hypoxia-activated spots in the region of the retrotrapezoid nucleus/parafacial respiratory group

Acute hypoxia elicits a biphasic respiratory response characterized in the newborn by a transient hyperventilation followed by a severe decrease in respiratory drive known as hypoxic respiratory depression. Medullary O(2) chemosensitivity is known to contribute to respiratory depression induced by hypoxia, although precise involvement of cell populations remains to be determined. Having a thorough knowledge of these populations is of relevance because perturbations in the respiratory response to hypoxia may participate in respiratory diseases in newborns. We aimed to analyze the hypoxic response of ponto-medullary cell populations of kreisler mutant mice. These mice have defects in a gene expressed in two rhombomeres encompassing a part of the medulla oblongata implicated in hypoxic respiratory depression. Central responses to hypoxia were analyzed in newborn mice by measuring respiratory rhythm in ex vivo caudal pons-medullary-spinal cord preparations and c-fos expression in wild-type and kreisler mutants. The homozygous kreisler mutation, which eliminates most of rhombomere 5 and mis-specifies rhombomere 6, abolished (1) an early decrease in respiratory frequency within 10 min of hypoxia and (2) an intrinsic hypoxic activation, which is characterized by an increase in c-fos expression in the region of the ventral medullary surface encompassing the retrotrapezoid nucleus/parafacial respiratory group expressing Phox2b. This increase in c-fos expression persisted in wild-type Phox2b-negative and Phox2b-positive cells after blockade of synaptic transmission and rhythmogenesis by a low [Ca(2+)](0). Another central response was retained in homozygous kreisler mutant mice; it was distinguished by (1) a delayed (10-30 min) depression of respiratory frequency and (2) a downregulation of c-fos expression in the ventrolateral reticular nucleus of the medulla, the nucleus of the solitary tract, and the area of the A5 region. Thus, two types of ponto-medullary cell groups, with distinct anatomical locations, participate in central hypoxic respiratory depression in newborns.