Studies on the intrinsic nervous system of the wild rodent Calomys callosus digestive tract. II: The submucous plexus

Populations and samples. Measures of central tendency. Measures of dispersion and variability. Testing of goodness of fit. Contingency tables. The normal distribuition. One-sample hypotheses. Two-sample hypotheses; Paired-sample hypotheses. Multisample hypotheses. Multisample hypotheses. The analysis of variance. Multiple comparasion. Two factor analysis of variance. Data transformations. Multiway factorial analysis of variance. Nested (hierarchial) analysis of variance. Simple linear regression. Comparing simple linear regression equations. Simple linear correlation. Polynomial regression. The binomial distribution. The posion distribution and randomness. Circular distributions. Descriptive statistics. Circula4 distribution. Hypotheses testing.

Acetylcholinesterase-histochemistry has been widely used for localizing cholinergic neurons despite specificity problems. The distribution of cells stained with this method has never been directly compared on a histochemical level with the specific cholinergic marker, choline acetyltransferase. We recently reported the immunohistochemical localization of choline acetyltransferase using monoclonal antibodies [Levey A. I., Armstrong D., Atweh S. F., Terry R. D. & Wainer B. H. (1983) J. Neurosci 3, 1-9]. Here we report the development of a combined histochemical and immunohistochemical method for the co-localization of the 2 cholinergic markers, and their comparison in the rat cerebrum. Although the precise relationship between the markers was complex, the important results were: (1) all neurons which contained choline acetyltransferase also contained some acetylcholinesterase; (2) many acetylcholinesterase-containing neurons did not contain any demonstrable choline acetyltransferase; (3) all neurons which stained intensely for acetylcholinesterase in the neostriatum and basal forebrain also contained choline acetyltransferase; and (4) many choline acetyltransferase-containing neurons did not stain intensely for acetylcholinesterase. The results corroborate the assumption that choline acetyltransferase is a more specific marker for cholinergic neurons than acetylcholinesterase. Intense staining for acetylcholinesterase can be reliably used in some regions of the cerebrum for identifying cholinergic neurons, however, it should be recognized that this criterion s not essential for all cholinergic neurons.