Faculty Bibliography

This issue of the journal honors Professor Henry McIlwain for his contributions to our knowledge of neurochemistry, as a pioneer (an important contributor already in the 1950s), as a scientist, and as a teacher of great influence and help to the next generation of neurochemists. It is fitting that in his semi-retirement he turns his interest to the history and background of our discipline and demonstrates to us that there is a great deal to learn from the past. In today's explosion of knowledge and new approaches, and the consequent rush to do the work, we tend to forget not only the important past accomplishments but also the past mistakes not to be repeated. It is worthwhile from time to time to take stock, to look back at the path that led to the present. This paper is an attempt to explore this retrospection by a discussion of some of the background of research on cerebral amino acid transport. Emphasis for the purpose is on illustration, with arbitrarily selected examples rather than an exhaustive review of the subject

[3H]Mazindol was used to label the dopamine uptake complex in mouse striatum in vitro in the presence and absence of metaphit, an isothiocyanate derivative of phencyclidine. In some experiments, metaphit was present in the incubation fluid throughout the procedure; in other experiments it was eliminated by several washings and centrifugations. It was found that after removal of the metaphit by washing and centrifugation, the mazindol binding was not restored. Membranes that were pretreated with metaphit and washed had a lower density of mazindol binding sites than control membranes; the remaining mazindol sites had the same afinity for [3H]mazindol. These findings are in agreement with the previous studies on [3H]cocaine and [3H]methylphenidate binding. The following observations support that metaphit is irreversibly acting and not slowly dissociating from the mazindol recognition sites of the dopamine uptake carrier complex: 1) Metaphit did not change the off-rate of [3H]mazindol binding, arguing against an allosteric action at a distinct site. 2) The presence of cocaine protected the mazindol binding sites from the action of metaphit, supporting binding of metaphit and mazindol to the same site. 3) Nine hours after metaphit pretreatment and removal, the degree of inhibition of mazindol binding was the same as immediately after pretreatment, consonant with an irreversible effect of metaphit. 4) The potency of metaphit in inhibiting mazindol binding was greater under slightly alkaline conditions, consistent with acylation of the mazindol sites. Furthermore, it was found that intracerebroventricular application of metaphit did not result in a decrease in the binding of [3H]mazindol 5 hr after the administration

Specific binding of (3H) naloxone to opioid receptors in frog (Rana esculenta) brain membranes was irreversibly inactivated by the sulfhydryl group alkylating agent N-ethylmaleimide (NEM). Saturation analysis of (3H) naloxone binding revealed a marked reduction in the number of ligand binding sites after N-ethylmaleimide treatment. Pretreatment of the membranes with unlabelled opioid ligands, i.e. naloxone, morphine, or the kappa selective dynorphin (1-13), and sodium ions resulted in considerable protection of (3H) naloxone binding against the N-ethylmaleimide blockade

The present study describes the inhibition of [3H]SCH-23390 binding to striatal dopamine D1 receptors in the presence of ascorbic acid. Specific [3H]SCH-23390 binding was maximally inhibited by 0.1 mM ascorbic acid. As determined by Scatchard analysis the binding in the presence of 0.01, 0.1, or 10 mM ascorbic acid was consonant with non-competitive inhibition with a 26%, 38%, or 19% decrease, respectively, in the maximal number of binding sites; the affinity of these binding sites was not affected. Inhibition of [3H]SCH-23390 binding by ascorbic acid was reversible; striatal homogenates incubated with 0.1 mM ascorbic acid and subsequently washed free of ascorbic acid had the same Scatchard parameters as untreated preparations

We examined the regional distribution in rat brain of calpain II, the calcium-activated neutral proteinase maximally active in the presence of 2mM Ca(2+), and of calpastatin, the endogenous inhibitor of the enzyme. A single-step chromatographic procedure was used to separate the constituents before determination. With [methyl-(14)C]?-casein as substrate, specific activity of calpain II was lowest in the cortex. The activity in the other areas tested was 10-50% higher, except pons-medulla > spinal cord > cerebellum > hypothalamus > striatum > hippocampus > cortex. When calpain II activity of the various areas was tested with endogenous brain protein substrates (the neurofilament proteins NF 200, 150 and 70 [NFT], glial fibrillary acidic protein [GFAP], desmin and actin), activity in each substrate was seen to be heterogenous, with a slightly different pattern of heterogeneity for each. The pons-medulla again was the highest in activity, but the cortex was usually not the lowest. Calpastatin was somewhat more evenly distributed in the various brain regions examined. Comparison of the enzyme activity of the crude supernatant with that in the purified fraction showed that at least 50% of the activity in the supernatant was inhibited by the calpastatin present. The regional differences in the substrate specificity of neutral proteolytic activity indicate that in vivo protein metabolism is influenced regionally by heterogeneity both in enzyme and in substrate distribution

Sex and strain differences in tyrosine hydroxylase activity (TH) of brain dopamine systems have been reported for mice. To investigate if there might be a causal relationship between perinatal androgen secretion and regional mesotelencephalic TH activity, BALB/cJ and C57BL/6ByJ male mice were treated perinatally with cyproterone, a steroidal anti-androgen (or vehicle), and orchiectomized at 1 month of age. Two-way analysis of variance indicated significant treatment and strain effects in the mesencephalon and tuber olfactorium: perinatal cyproterone treatment lowered TH activity, and BALB/cJ had higher regional TH activities than those of C57BL/6ByJ. The most prominent behavioral effects of cyproterone treatment were found in the expression of scratching, which was considerably increased in both strains. Possible implications of these results are discussed