Ingrid S. Hamilton scite author profile

The expression patterns of two dopamine receptor genes, Amdop1 and Amdop2, in the developing mushroom bodies of the honeybee brain were determined by using in situ hybridisation. Both genes were expressed throughout pupal development, but their patterns of expression in the three major divisions of mushroom body intrinsic neurons (outer compact cells, noncompact cells, and inner compact cells) were quite distinct. Amdop1 expression could be detected in all three mushroom body cell groups throughout development. Staining for Amdop1 mRNA was particularly intense in newly born Kenyon cells, suggesting that levels of Amdop1 expression are higher in newborn cells than in more mature mushroom body neurons. This was not the case for Amdop2. Amdop2 expression in the mushroom bodies was restricted to inner and outer compact cells during most of pupal development, appearing in noncompact cells only late in metamorphosis or at adult eclosion. In contrast to the case with Amdop1, staining for Amdop2 mRNA was observed in glial cells. Expression of Amdop2 in glial cells was detected only at early stages of glial cell development, when the cells are reported to be actively dividing. This study not only implicates dopamine in the development of honeybee mushroom bodies but also suggests different roles for the two dopamine receptors investigated.

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Developmental expression of a tyramine receptor gene in the brain of the honey bee, Apis mellifera

Mustard

Kurshan

Hamilton

et al. 2005

J of Comparative Neurology

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This study reveals that the tyramine receptor gene, Amtyr1, is expressed in the developing brain, as well as in the brain of the adult worker honey bee. Changes in levels of Amtyr1 expression were examined using Northern analysis. Age-related increases in Amtyr1 transcript levels were observed not only during metamorphic adult development, but also in the brain of the adult worker bee. RNA in situ hybridization revealed the pattern of Amtyr1 expression. Cell bodies staining intensely for tyramine receptor-gene transcript were observed throughout the somata rind, with well-defined clusters of cells associated with developing mushroom bodies, optic lobes, and antennal lobes of the brain. Staining for Amtyr1 transcript was particularly intense within the three major divisions of mushroom body intrinsic neurons (outer compact, noncompact, and inner compact cells), suggesting that Amtyr1 is highly expressed in these structures. Activation of AmTYR1 receptors heterologously expressed in insect (Spodoptera frugiperda) cells led to a reduction in intracellular levels of cAMP similar to that reported for AmTYR1 receptors expressed in mammalian (HEK 293) cells (Blenau et al. [2000] J Neurochem 74:900-908). Taken together, these results suggest that AmTYR1 receptors may play a role in the developing brain as well as in the brain of the adult worker bee. The actions of tyramine are likely to be mediated, at least in part, via the cAMP-signaling pathway.

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Ingrid S. Hamilton

Analysis of two D1-like dopamine receptors from the honey bee Apis mellifera reveals agonist-independent activity

Characterization of a D2-like dopamine receptor (AmDOP3) in honey bee, Apis mellifera

Developmental changes in expression patterns of two dopamine receptor genes in mushroom bodies of the honeybee, Apis mellifera

Developmental expression of a tyramine receptor gene in the brain of the honey bee, Apis mellifera

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