Changes in chick brain RNA polymerase associated with an imprinting procedure

Thirty years of collaboration with Gabriel Horn

All the collaborative work described in this review was on the process of behavioural imprinting occurring early in the life of domestic chicks. Finding a link between learning and a change in the brain was only a first step in establishing a representation of the imprinting object. A series of overlapping experiments were necessary to eliminate alternative explanations. Once completed, a structure, the intermediate and medial mesopallium (IMM), was found to be strongly linked to the formation of a neural representation of the object used for imprinting the birds. With the site identified, lesion experiments showed that it was necessary for imprinting but not associative learning. Also the two sides of the brain responded differently with the left IMM acting as a permanent store and the right side acting as a way station to other parts of the brain. The collaborative work led to many studies by Gabriel Horn with others on the molecular and cellular bases of imprinting, and also to neural net modelling and behavioural studies with me on the nature of category formation in intact animals.

Neurochemical studies on imprinting behavior in chick and duckling

The effect of lesions in the parts of medial hyperstriatum ventrale (MHV) or lateral neostriatum (LN) on imprinting behavior was examined. Bilateral lesions in MHV severely impaired imprinting behavior in ducklings, but lesions in LN did not impair such behavior. On the other hand, the birds lesioned in MHV still had brightness discriminative learning ability with perfect performance of visuomotor coordination. The neurotransmitter candidates controlling imprinting behavior in MHV were investigated using blockers of neurotransmission. 6-Hydroxydopamine (6-OHDA) and haloperidole injected into MHV did not have specific effect on imprinting behavior although catecholamine contents in MHV was clearly decreased and locomotor activity was strongly suppressed. Atropine injection into MHV caused significant impairment of following behaviour, but locomotor activity was not affected. The injection of atropine into other region did not have any effect. alpha-Bungarotoxin showed no effect on either imprinting or locomotor activity. Kainic acid injection into MHV caused the decrease of glutamate content in the MHV region and it reached maximum at 24 hours after injection. However, imprinting behavior was already impaired at 3 hours after injection, but at 24 hours it had been recovered. A same effect was observed by glutamate injection. The effect of protein synthesis inhibitor on the acquisition process of imprinting was investigated. The acquisition of imprinting was significantly impaired by cycloheximide (CHX) injection into MHV within 2 hours after the first exposure to the imprinting stimulus. When CHX was given 24 hours after, imprinting behavior was not affected.

Paradoxical sleep augmentation after imprinting in the domestic chick

The EEG and EMG of two groups of chicks (Gallus domesticus), (an experimental one who was imprinted, and a control one who was not), were recorded during 3 hours before and 3 hours after imprinting. The fertilized eggs were kept in an incubator under controlled temperature and humidity until ecclosion occurred. The recording session began 10 hours after ecclosion and after two hours of habituation to the recording conditions. During the imprinting session, E group met a natural stuffed white hen moved by a slow motor. The total amount of time spent in paradoxical sleep (PS), as well as the number of PS episodes increased significantly following imprinting in the E group. Opposite results were found in C group: total amount and number of PS episodes decreased significantly after the pseudo-imprinting session. Neither slow wave sleep, nor wakefulness were modified.

Ontogenetic and imprinting-induced changes in chick brain protein metabolism and muscarinic receptor binding activity

Over the 20-min period following exposure of young chicks to a flashing light as an imprinting stimulus there is an increased incorporation of [14C]leucine into an acidic (tubulin-enriched) protein fraction of the anterior dorsal forebrain in birds which have learnt the characteristics of the stimulus as compared with, either birds which have been exposed to an imprinting stimulus but learn poorly, or chicks kept in the dark. This brain region has been implicated in several studies as the locus for a number of biochemical modulations that accompany learning. The amount of [14C]leucine incorporated does not seem to be determined by precursor pool availability; it does, however, correlate with a well-validated measure of the extent to which birds have learnt to recognise the characteristics of the stimulus, as shown by a two-choice discrimination test. There is no change in the total content of tubulin dimer as assayed by colchicine binding under these conditions. Additionally, in birds which show evidence of learning, the binding of quinuclidinyl benzilate, an irreversible muscarinic ligand, is altered in both the posterior dorsal forebrain and midbrain regions. None of these effects could be simply the result of visual stimulation. The meaning of these changes is discussed.

An autoradiographic study of the chick brain after imprinting

On the first day after hatching domestic chicks were exposed to an imprinting stimulus, a horizontal yellow slit of light moving upwards in a window and presented at a rate of 4 slits/sec. Chicks were exposed for either 45 min (undertrained) or 180 min (overtrained) on the first day of hatching (60 or 240 min in the case of 1 pair). On the second day all birds were exposed for a further 63 min. Twenty birds were matched in pairs and each chick received 1.1 muCi [14C]uracil/g body weight injected into the heart region before exposure on day 2. At 150 min after the injection the chicks were decapitated and serial coronal sections of their brains cut; alternate pairs of sections were prepared for autoradiography. The optical density for a number of major anatomical regions was measured. The measurements for each region were averaged over congruent to 0.6 mm 'slabs' of brain and expressed as a percentage of the mean of all measurements for that brain. Standardized mean optical density was significantly greater in undertrained chicks than in overtrained chicks in a part of the medial region of hyperstriatum ventrale (MHV) which extended across two adjacent slabs. The slabs were slightly posterior to the mid-point between anterior and posterior poles of the brain. In the next two, adjacent, anterior slabs the variances for MHV were significantly greater in undertrained chicks than in overtrained chicks. There were no other significant differences between brain regions. Taken together with previous studies these results suggest that the intermediate and medial part of hyperstriatum ventrale is intimately linked with the imprinting process.