Chemical Messengers in Development: A Hypothesis

doi:10.1126/science.185.4156.1012

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Science 20 September 1974:
Vol. 185. no. 4156, pp. 1012 - 1021
DOI: 10.1126/science.185.4156.1012

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Chemical Messengers in Development: A Hypothesis

Daniel McMahon ¹

¹ Division of Biology, California Institute of Technology, Pasadena 91109

The hypothesis that physiological and developmental regulatorymechanisms are similar has been presented. Well-known developmentalsystems chosen illustrate the capability of the model to suggesta simple mechanism underlying the effects on development ofa diverse group of chemicals. This hypothesis might be appliedto other systems including the induction of the lens, limb regeneration,and the induction of the head of hydra (124).

I have proposedthis hypothesis not only because it permits consideration ofa complex and varied array of experimental observations as reflectionsof a simple basic biochemical mechanism, but because recenttechnical advances in instrumentation and methods allow it tobe directly tested. The fluorescent antibody method for thecytochemical measurement of cyclic nucleotides provides a meansfor investigating changes in the concentrations of cyclic nucleotidesin developing cells and could also be used to detect neurotransmittersin developing cells. Similarly, the scanning electron microscopein the emitted x-ray mode provides a method for measuring changesin the content and distribution of cations within developingcells.

The hypothesis presented here suggests pleasing asceticismon the part of eukaryotes. It suggests that simple derivativesof metabolites, including neurotransmitters and cyclic nucleotides,are linked together as regulatory molecules throughout the eukaryotes.The neurotransmitters are suggested to have a more general rolein information transmission in eukaryotes than is generallyaccepted. They are hypothesized to have progressed during evolutionfrom being intracellular messengers to a role as intercellularmessengers for the relatively slow communication of developmentalinformatbn; and, finally, this process has culminated with theirparticipation in the rapid intercellular communication mediatedby nerves. The thought that the complex pictures of physiologicalregulation and of the construction of a complex multicellularorganism like man might be painted with so few colors is quitesatisfying.

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