The lateral hypothalamus regulates the expression of habitual behaviour in rats.

The lateral hypothalamus modulates spontaneous locomotor activity in an open field test.

The lateral hypothalamus does not regulate balance and motor co-ordination on the tapered beam or rota rod.

Instrumental actions are initially goal-directed but with repeated performance can become habitual. Habitual actions are adaptive, learned behaviours that are automated in order to reduce cognitive load and to allow for efficient interaction with the environment. Goal-directed and habitual actions are mediated by distinct neurocircuits which centre on the dorsal striatum and involve different cortical and limbic inputs. The lateral hypothalamus (LH) has yet to be considered in this neurocircuitry despite its anatomical connections with these neurocircuits and its established role in motivated behaviour. The aim of the current study was to determine whether the LH has a role in the development of habitual actions in rats by knocking down protein expression in the LH with short hairpin RNAs (shRNA). Two shRNAs were utilised, both of which were shown to reduce the expression of two neuropeptides within the LH, orexin and melanin-concentrating hormone, compared to a saline-vehicle control. This was unexpected given that one shRNA was a control vector (i.e, scrambled sequence), and the other shRNA was supposed to selectively target orexin’s precursor protein. Given this lack of specificity and that shRNA’s are known to be neurotoxic, the current study examined the impact of non-selective dysfunction of the LH on habitual actions. Adult male Long-Evans rats were trained to press a lever for a food outcome and were tested for goal directed and habitual behaviour following devaluation of the food. The shRNA groups displayed goal-directed actions following moderate instrumental training, but did not develop habitual actions following extended training. That is, control rats developed the expected habitual behaviour where lever-response rates were insensitive to outcome value when tested, whilst the shRNA groups reduced rates of responding on the lever under devalued conditioned and hence remained goal-directed. This failure to demonstrate habitual actions was unlikely to be secondary to changes in motivation or arousal as the shRNA groups did not show altered food consumption, body weight, lever response rates, or motor performance on a rota rod or tapered balance beam. However, locomotor activity was reduced in an open field test, consistent with the proposed role of the LH in spontaneous locomotor activity. Therefore, this study implicates the LH in habitual learning, and adds to the emerging evidence that the LH has a role in associative learning processes. This finding has implications for human conditions where there is dysfunction or neurodegeneration in the LH, as well as altered habitual actions, such as in Parkinson’s disease and drug addiction.

Habitual learning

Goal-directed learning

Lateral hypothalamus

Orexin

Hypocretin

Associative learning

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