Alberto Fernández-Teruel

Hyperalgesia, anxiety, and decreased hypoxic neuroprotection in mice lacking the adenosine A1 receptor

Caffeine is believed to act by blocking adenosine A1 and A2A receptors (A1R, A2AR), indicating that some A1 receptors are tonically activated. We generated mice with a targeted disruption of the second coding exon of the A1R (A1R−/−). These animals bred and gained weight normally and had a normal heart rate, blood pressure, and body temperature. In most behavioral tests they were similar to A1R+/+ mice, but A1R−/− mice showed signs of increased anxiety. Electrophysiological recordings from hippocampal slices revealed that both adenosine-mediated inhibition and theophylline-mediated augmentation of excitatory glutamatergic neurotransmission were abolished in A1R−/− mice. In A1R+/− mice the potency of adenosine was halved, as was the number of A1R. In A1R−/− mice, the analgesic effect of intrathecal adenosine was lost, and thermal hyperalgesia was observed, but the analgesic effect of morphine was intact. The decrease in neuronal activity upon hypoxia was reduced both in hippocampal slices and in brainstem, and functional recovery after hypoxia was attenuated. Thus A1Rs do not play an essential role during development, and although they significantly influence synaptic activity, they play a nonessential role in normal physiology. However, under pathophysiological conditions, including noxious stimulation and oxygen deficiency, they are important.

A behavioral assessment of Ts65Dn mice : a putative Down syndrome model

Mice which are trisomic for only the human chromosome (Chr) 21-homologous segment of mouse Chr 16 (segmental trisomy), including a portion of the Down syndrome region of human Chr 21, have recently been developed. Since these segmentally trisomic mice, designated Ts(17(16))65Dn, survive to adulthood, they may represent a mouse model for the study of Down syndrome. A partial characterization of their behavioral phenotype was undertaken by evaluating the sensorimotor reflexes, exploration, locomotor activity, emotionality and spatial learning in 16 male Ts65Dn mice (TS) and 16 control (CO) littermates. No sensorimotor deficits appeared in TS compared to CO mice. By contrast, head-dipping behaviour in the hold board was increased in TS mice with respect to the CO group, showing a higher repetition rate of previously explored holes. Crossings in the open field and total arm entries in the plus maze were higher in TS than in the CO group during the dark phase of the light-dark (LD) cycle under red light, but not during the light phase of the LD cycle under white light. Entries into the open arms of the plus maze were increased overall in TS mice when compared to CO mice, but no differences were found in time spent in the open arms. TS mice showed impaired place learning in the Morris water maze, whereas they were able to reach the same performance as CO animals in cued learning. Thus, absence of sensorimotor deficits, increased exploration, hyperactivity under certain experimental conditions and a moderate impairment of spatial learning were the principal characteristics observed in TS mice compared to their CO littermates.

Impaired short- and long-term memory in Ts65Dn mice, a model for Down syndrome

Ts65Dn (TS), control littermates (CO) and Swiss (SW) male mice were tested in the elevated plus-maze and in the Morris water maze (MWM) for memory evaluation. In the plus-maze, each mouse was placed at the end of an open arm and initial freezing and the time to enter into an enclosed arm (transfer latency) were measured. SW mice decreased both measures over repeated trials, whereas no decrease of freezing was observed in CO mice, thus suggesting increased emotionality in this group. Compared to CO mice, TS mice showed less initial freezing, shorter transfer latencies, and spent less time in enclosed arms, suggesting a reduced ability to habituate or to inhibit behaviour. Animals were also submitted to a learning-set paradigm consisting of reaching a new platform position each day in the MWM. Two training phases (separated by a resting period of 6 weeks), each including eight acquisition and four cued sessions, were performed (each session consisting of four pairs of trials). CO and SW mice already reached an asymptotic performance by the second day of the first phase whereas TS mice did not achieve that level until the second training phase. The progression over trials indicated that CO and SW animals learned the new platform position between trials 1 and 2 of each session, whereas TS animals failed to do it and had more difficulties to find the platform when it was placed in the centre of the pool as compared to the other positions (SW, NE, E). The results suggest that TS mice show working memory impairments in addition to long-term memory deficits, although extensive training appeared to facilitate TS mice to achieve a level of performance similar to their control littermates. This represents another aspect of the cognitive deficits shown by TS mice: a mouse model of the human Down syndrome.

Mice lacking the adenosine A1 receptor are anxious and aggressive, but are normal learners with reduced muscle strength and survival rate

Behavioural assessment of mice lacking adenosine A1 receptors (A1Rs) showed reduced activity in some phases of the light–dark cycle, reduced exploratory behaviour in the open‐field and in the hole‐board, increased anxiety in the plus maze and dark‐light box and increased aggressiveness in the resident‐intruder test. No differences were found in spatial reference and working memory in several Morris water maze tasks. Both mutant mice had reduced muscle strength and survival rate. These results confirm the involvement of adenosine in motor activity, exploratory behaviour, anxiety and aggressiveness. A1Rs also appear to play a critical role in ageing‐related deterioration.

Effects of postnatal handling of rats on emotional, HPA-axis, and prolactin reactivity to novelty and conflict.

The present studies evaluated whether or not postnatal handling (PH) (administered during the first 21 days of life) could enduringly improve coping behavior with novel and/or conflict situations. To this purpose, different groups of naive male rats (control and PH-treated) were submitted in separate experiments to 1 of the 3 following situations: an emotional reactivity test (in 4-month-old animals), an open-field session followed by endocrine measurements (in 7-month-old animals) and a punished drinking test (in 11-month-old animals). PH effects were significant in the 3 situations: handled animals were less resistant to capture or to the handling manouvers involved in the emotional reactivity test: the hormonal responses (corticosterone, prolactin, and ACTH changes) during and after an open-field stress were less intense, and PH effects lasted up to 11 months in the punished drinking test, as measured by a higher number of punished responses and less time spent freezing by handled animals during the punished period. The results are discussed in relation to previous evidence showing a long-lasting reduction of fearfulness in rats due to postnatal handling.

Combined sequence-based and genetic mapping analysis of complex traits in outbred rats

Genetic mapping on fully sequenced individuals is transforming understanding of the relationship between molecular variation and variation in complex traits. Here we report a combined sequence and genetic mapping analysis in outbred rats that maps 355 quantitative trait loci for 122 phenotypes. We identify 35 causal genes involved in 31 phenotypes, implicating new genes in models of anxiety, heart disease and multiple sclerosis. The relationship between sequence and genetic variation is unexpectedly complex: at approximately 40% of quantitative trait loci, a single sequence variant cannot account for the phenotypic effect. Using comparable sequence and mapping data from mice, we show that the extent and spatial pattern of variation in inbred rats differ substantially from those of inbred mice and that the genetic variants in orthologous genes rarely contribute to the same phenotype in both species.

Postnatal handling reduces emotionality ratings and accelerates two-way active avoidance in female rats

The present study evaluated whether postnatal handling (PH; administered daily during the first 21 days of life) could reduce anxiety or emotional reactivity in tasks of either spontaneous or conditioned fear-related behavior. To this purpose control nonhandled and postnatally handled female rats were submitted to three different behavioral tests: an emotionality rating (ER) followed by an elevated plus-maze test of anxiety in one experiment, and an acquisition of two-way active (shuttlebox) avoidance under two different training conditions in a separate experiment. Significant effects of PH treatment appeared in the three testing situations, clearly indicating an important and enduring reduction of emotionality/anxiety in PH-treated rats. Of special interest were the results of shuttlebox training: by shortening the conditioned stimulus (CS) and the intertrial interval (ITI) duration, avoidance acquisition was impaired as expected but the improving effects of PH were even more marked. The results are discussed in relation to previous studies reporting controversial results in the same (or similar) testing situations.

Impulsivity Characterization in the Roman High- and Low-Avoidance Rat Strains: Behavioral and Neurochemical Differences

The selective breeding of Roman high- (RHA) and low-avoidance (RLA) rats for rapid vs extremely poor acquisition of active avoidance behavior in a shuttle-box has generated two phenotypes with different emotional and motivational profiles. The phenotypic traits of the Roman rat lines/strains (outbred or inbred, respectively) include differences in sensation/novelty seeking, anxiety/fearfulness, stress responsivity, and susceptibility to addictive substances. We designed this study to characterize differences between the inbred RHA-I and RLA-I strains in the impulsivity trait by evaluating different aspects of the multifaceted nature of impulsive behaviors using two different models of impulsivity, the delay-discounting task and five-choice serial reaction time (5-CSRT) task. Previously, rats were evaluated on a schedule-induced polydipsia (SIP) task that has been suggested as a model of obsessive-compulsive disorder. RHA-I rats showed an increased acquisition of the SIP task, higher choice impulsivity in the delay-discounting task, and poor inhibitory control as shown by increased premature responses in the 5-CSRT task. Therefore, RHA-I rats manifested an increased impulsivity phenotype compared with RLA-I rats. Moreover, these differences in impulsivity were associated with basal neurochemical differences in striatum and nucleus accumbens monoamines found between the two strains. These findings characterize the Roman rat strains as a valid model for studying the different aspects of impulsive behavior and for analyzing the mechanisms involved in individual predisposition to impulsivity and its related psychopathologies.

Fearfulness and sex in F2 Roman rats: males display more fear though both sexes share the same fearfulness traits.

The pattern of sex differences in a large sample (about 400 for each sex) of F2-generation rats, derived from inbred Roman high- and low-avoidance strains differing in fearfulness and brain functioning, was investigated. We obtained measures from responses to a battery of novel/threatening tests [open field (OF), plus maze (PM), hole board (HB), activity (A), and acoustic startle reflex (ASR)] as well as learned fear paradigms [classical fear conditioning (CFC) and shuttlebox avoidance conditioning (SAC)]. The results showed that almost all behaviors assessed fit with a pattern of unidirectional sex effects characterized by male rats as being more fearful than females: males defecated more than females in the OF, PM, HB, ASR, and CFC; ambulated less in the OF, PM, A, and SAC; showed more self-grooming in PM and HB; explored the open arms of the PM and the holes of the HB less; displayed enhanced ASR; and showed poorer performance in the SAC task. We applied two factor analyses to each sex showing that, in general, they shared a common three-factor structure: a Learned Fear Factor comprising SAC and CFC responding, a Fear of Heights/Open Spaces Factor with the highest loadings for open arm behavior in the PM, and an Emotional Reactivity Factor, mainly grouping defecations, ambulation, and self-grooming. These results indicate that the essential components of fearful behavior are similar for both sexes in an inbred but genetically heterogeneous population.

A resource for the simultaneous high-resolution mapping of multiple quantitative trait loci in rats: The NIH heterogeneous stock

The laboratory rat (Rattus norvegicus) is a key tool for the study of medicine and pharmacology for human health. A large database of phenotypes for integrated fields such as cardiovascular, neuroscience, and exercise physiology exists in the literature. However, the molecular characterization of the genetic loci that give rise to variation in these traits has proven to be difficult. Here we show how one obstacle to progress, the fine-mapping of quantitative trait loci (QTL), can be overcome by using an outbred population of rats. By use of a genetically heterogeneous stock of rats, we map a locus contributing to variation in a fear-related measure (two-way active avoidance in the shuttle box) to a region on chromosome 5 containing nine genes. By establishing a protocol measuring multiple phenotypes including immunology, neuroinflammation, and hematology, as well as cardiovascular, metabolic, and behavioral traits, we establish the rat HS as a new resource for the fine-mapping of QTLs contributing to variation in complex traits of biomedical relevance.