H. P. Lipp scite author profile

The extent of the intra- and infrapyramidal mossy fiber projection (IIP- MF) in the hippocampus of mice and rats is strain-specific, and correlates negatively with the strain-specific capacity of avoidance learning. If variations of the IIP-MF influence the capacity for 2-way avoidance learning, then developmental modification of the IIP-MF projection in an individual member of a strain should remain correlated with its adult behavior. Pups of strains with high avoidance capacity and small IIP-MF projections (RHA rats, DBA/2 and BALB/c mice) were injected with varying doses of thyroxine during the postnatal period. This transient hyperthyroidism resulted in a strong, yet largely unpredictable, variability of the IIP-MF projection in the adult animals. Furthermore, postnatal saline injections also increased the variability of the IIP-MF projection; however, this was to a lesser degree than when using thyroxine. The animals were tested for 2-way avoidance learning at the age of 90–120 d. Many showed strain-atypical avoidance scores. These deviations from the inherited level of 2-way avoidance learning were strongly correlated with the magnitude of the IIP-MF projection, regardless of whether the structural changes resulted from thyroxine or saline injections. A multivariate analysis showed that the observed correlations could neither be explained by thyroxine-induced changes in brain weight nor by individual differences of other terminal fields in the hippocampal region CA3. These results suggest that the extent of the IIP-MF projection is influenced by several genetic and epigenetic factors. Irrespective of the underlying causes, the magnitude of the IIP-MF (or of an unknown but well- correlated variable) appears to bias the adult capacity for 2-way avoidance learning predictably.

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Dissociation between Basic Components of Spatial Memory in Rats

Schenk¹,

Grobéty²,

Lavenex³

et al. 1995

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Individual Hippocampal Mossy Fiber Distribution in Mice Correlates with Two-Way Avoidance Performance

Schwegler

Lipp

Loos

et al. 1981

Science

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Mice systematically bred for randomization of their genotype show large individual differences when performing a two-way avoidance task (shuttle-box learning). Their behavioral scores correlate strongly (r = -0.80, P less than .01) with the number of mossy fibers synapsing on basal dendrites of hippocampal pyramidal neurons, poor avoiders having relatively more such terminals. This confirms previous findings showing that rat and mouse strains known for genetically dependent poor avoidance learning have extended intra- and infrapyramidal mossy fiber projections.

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Early postnatal hyperthyroidism alters hippocampal circuitry and improves radial-maze learning in adult mice

et al. 1991

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Inbred mice show strain-specific differences in the hippocampal mossy fiber projection. These differences are most pronounced in the portion of the projection that forms synaptic connections with the basal dendrites of the CA3 pyramidal neurons [intra- and infrapyramidal mossy fiber (IIP-MF) projection]. We have previously demonstrated that the extent of the IIP-MF subfield is positively correlated with the capacity to perform a spatial radial-maze task and that an experimentally induced enlargement of the IIP-MFs, by means of postnatal thyroxine treatment, predicted the ability of adult two-way avoidance learning. In the present study, we tested whether this treatment would also influence radial-maze performance. Forty-five male mouse pups from the inbred strain DBA/2 (chosen because of scanty IIP-MF projection and poor radial-maze learning) were divided into three groups that received daily injections of either 2 micrograms L-thyroxine, an alkaline vehicle solution, or physiological saline. Treatment lasted from postnatal days 0 to 11. At the age of 3 months, these animals were tested in an eight-arm radial maze. The extent of their IIP-MF projections was measured by means of planimetry on Timm-stained sections. Thyroxine-treated animals made significantly fewer errors and had larger IIP-MF projections as compared to both control groups. Within each group, the individual variability of the IIP-MF projection was significantly and positively correlated with performance. We conclude that experimentally modified IIP-MF projections mediate processes underlying spatial working memory. It would appear that the hippocampal circuitry alterations induced by postnatal hyperthyroidism can counteract a hereditary lack of talent, albeit only partially and in selected populations.

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Postnatal Modification of Hippocampal Circuitry Alters Avoidance Learning in Adult Rats

Lipp¹,

Schwegler²,

Driscoll³

1984

Science

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In rats and mice, the genetically mediated extent of the mossy fiber projection that synapses on the basal dendrites of hippocampal pyramidal cells is inversely correlated with rate of two-way avoidance (shuttle-box) learning. Postnatal hyperthyroidism, induced in 51 rat pups, resulted in marked variations of this infrapyramidal mossy fiber projection. The number of trials required for criterion performance of these rats in adulthood remained correlated with the neuroanatomical trait (r = 0.74, P less than 0.0001).

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H. P. Lipp

Infrapyramidal mossy fibers and two-way avoidance learning: developmental modification of hippocampal circuitry and adult behavior of rats and mice

Dissociation between Basic Components of Spatial Memory in Rats

Individual Hippocampal Mossy Fiber Distribution in Mice Correlates with Two-Way Avoidance Performance

Early postnatal hyperthyroidism alters hippocampal circuitry and improves radial-maze learning in adult mice

Postnatal Modification of Hippocampal Circuitry Alters Avoidance Learning in Adult Rats

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