F. Franck

Mildly impaired water maze performance in male Fmr1 knockout mice

Fmr1 knockout mice constitute a putative model of fragile X syndrome, the most common form of heritable mental disability in humans. We have compared the performance of transgenic mice with an Fmr1 knockout with that of normal littermates in hidden- and visible-platform water maze learning, and showed that knockouts exhibit subnormal spatial learning abilities and marginal motor performance deficits. During 12 training trials of the hidden-platform task, escape latency and path length decreased significantly in knockouts and control littermates, and no effect of genotype was found. During four ensuing reversal trials, however, significant differences were found between knockouts and control littermates both in escape latency and path length. During the visible-platform condition, the reversal trials also revealed a difference between knockouts and normal littermates in escape latency, but not in path length. Possibly due to marginal motor incapacity, knockouts swam significantly slower than controls during these latter trials. During both probe trials of the hidden-platform task, knockouts as well as normal littermates spent more time in the target quadrant than in the other quadrants, and percent of time spent in the target quadrant was the same in both groups; swimming velocity was not significantly different between knockouts and normal littermates during these trials. Entries in the target area during the probe trials did show a significant effect of genotype on number of entries. The present results largely confirm and extend our previous findings. Impaired spatial abilities in Fmr1 knockouts might have been due to relatively low response flexibility or high memory interference in Fmr1 knockouts. It remains unclear, however, which brain region or neurochemical system might be involved in these disabilities. We conclude that Fmr1 knockout mice might be a valid model of fragile X mental retardation.

Age-related behavioural deficits in transgenic mice expressing the HIV-1 coat protein gp120

Transgenic mice expressing HIV‐1 coat glycoprotein gp120 in brain glial cells were previously shown to display AIDS dementia‐like neuropathological changes and reduced hippocampal long‐term potentiation. In this report, neuromotor and cognitive performance in 3‐ and 12‐month‐old gp120‐expressing mice was compared with wildtype controls. Rotarod and cage activity measures showed no significant differences between transgenic animals and controls of either age. Open field activity was slightly altered in 12‐month‐old gp120 animals (reduced corner crossings and dwell in centre), but not in the 3‐month‐olds. Cognitive assessment using the Morris water maze showed unimpaired performance in 3‐month‐old mice during acquisition and (no‐platform) probe trials. In 12‐month‐old gp120 animals, escape latency and swimming velocity during the acquisition trials were significantly reduced, but performance improved at roughly the same rate as in control animals. However, the probe trials revealed a highly significant reduction in spatial retention in transgenic mice of this age. This demonstration of age‐dependent impairments in open field activity and spatial reference memory may relate to cognitive and neuromotor deficits seen in a proportion of HIV‐1‐infected individuals.

Hyperactivity, neuromotor defects, and impaired learning and memory in a mouse model for metachromatic leukodystrophy.

Deficiency of arylsulfatase A (ASA) causes the autosomal recessive lipidosis, metachromatic leukodystrophy (MLD). Performance on tests of activity, motor ability and learning/memory was assessed in ASA-deficient mice and normal controls at 3, 6 and 12 months-of-age. ASA-deficient mice showed consistently increased cage activity in all age groups, whereas open field activity was increased only in the 3-month-old group. Motor coordination and equilibrium, as tested in the rotarod test, was impaired in 12-month-old ASA-deficient mice. Passive avoidance learning was tested in the step-through box. Performance on this test was impaired in the 12-month-old group only. Spatial learning and memory abilities were tested in the Morris water maze. Six-month-old ASA-deficient mice displayed slightly impaired hidden-platform acquisition performance. Three-month-old animals, on the other hand, did not show any acquisition or retention defect on this task, notwithstanding significantly reduced swimming velocity. Acquisition training, both in the hidden- and visible-platform conditions of the Morris water maze, and retention performance during the probe trials were impaired in 12-month-old ASA-deficient mice. The hyperactivity, motor incoordination and slowing, and the age-related learning/memory defects, reported here in ASA-deficient mice, may relate to the decline of neuromotor and cognitive functions in MLD patients, and could be used as correlative or outcome measures in the study of MLD pathophysiology and treatment.

Altered ingestive behavior, weight changes, and intact olfactory sense in an APP overexpression model.

Transgenic APP23 mice were generated to model Alzheimers disease. The APP23 model develops pathological features, learning deficits, and memory deficits analogous to dementing patients. In this report, transgenic mice exhibited several behavioral disturbances indicating the presence of neuropsychiatric symptoms of dementia. Aiming to verify whether the model also develops other behavioral problems, the authors investigated ingestive behavior in APP23 males of 3, 6 and 12 months. In addition, body weights of a naive male group were longitudinally monitored starting at weaning. Olfactory acuity was evaluated in mice of different age groups. Although olfactory functioning of APP23 mice appeared intact, they drank more and took more food pellets compared with wild-type littermates during a 1-week registration period. From the age of 4.5 weeks onward, APP23 males weighed significantly less than their control littermates, whereas this difference became more prominent with increasing age. Our results suggest the presence of a hypermetabolic state in this model. This is the first report, evidencing the presence of changes in eating and drinking behavior in a single transgenic Alzheimer mouse model.

Mood and male sexual behaviour in the APP23 model of Alzheimer's disease

Alzheimers disease is characterised by both cognitive deterioration and the development of a wide range of neuropsychiatric disturbances, among which affective disturbances, stereotyped behaviour, dietary hyperactivity and changes in sexual behaviour. The transgenic APP23 mouse models Alzheimers disease and has shown to be a unique tool in the study of this condition. APP23 mice develop, next to the age-dependent cognitive decline, also a range of behavioural problems, such as circadian activity disturbances and increased aggression, in analogy with the dementing patients. The present study aimed to investigate whether this model also develops mood disturbances and changes in sexual behaviour. Using two behavioural despair paradigms and the sucrose preference test, we did not find evidence for the development of depression-related behaviours. A sophisticated protocol was neither able to unravel changes in male sexual behaviour between APP23 and WT mice. The present study nevertheless provides evidence that the APP23 mice are more anxious and fearful in comparison with control littermates, which opens perspectives to future treatment studies.