Tissue neuronal

FIGURE 17.26 The o i-subuiiit of the t-tubule Ca" chainiel/DHP receptor contains six peptide segments that may associate to form the Ca" channel. This Ca" channel polypeptide is homologous with the voltage-sensitive Na channel of neuronal tissue. 

AMPK can also be activated by a Ca2+-mediated pathway involving phosphorylation at Thr-172 by the Ca2+/calmodulin-dependent protein kinase, CaMKK 3. CaMKKa and CaMKK 3 were discovered as the upstream kinase for the calmodulin-dependent protein kinases-1 and -IV they both activate AMPK in a Ca2+/ calmodulin-dependent manner in cell-free assays, although CaMKK 3 appears to much more active against AMPK in intact cells. Expression of CaMKKa and CaMKK(3 primarily occurs in neural tissues, but CaMKKp is also expressed in some other cell types. Thus, the Ca2+-mediated pathway for AMPK activation has now been shown to occur in response to depolarization in rat neuronal tissue, in response to thrombin (acting via a Gq-coupled receptor) in endothelial cells, and in response to activation of the T cell receptor in T cells. 

Cadherins are a superfamily of Ca2+-sensitive cell-cell adhesion molecules, which cause homophilic cell interactions. Cadherins can be divided into different subfamilies, namely, classical cadherins, desmosomal cadherins, protocadherins, and nonconventional cadherins (7TM cadherins, T-cadherin, FAT). Classical cadherins are often denoted by a prefix reflecting their principal expression domains e.g., E is epithelial, N is neuronal, and P is placental. However, this classification is not stringent, as for instance E-cadherin can also be found in certain neuronal tissues, and N-cadherin is also found in epithelial cells. Among the desmosomal cadherins, two subfamilies can be distinguished the desmocollins 1-3 and the desmogleins 1-4. 

Pepin et al. (1992) generated transgenic mice in which antisense RNA complementary to GR cDNA led to reduced expression mostly in neuronal tissues. Consequently, this was found to result in an impaired behavior, a defective response to stress as well as in obesity. King et al. (1995) generated transgenic mice where reduced GR expression was limited to the thymus. This leads to an altered thymocyte development, changes in the T-cell repertoire, and a reduced risk to develop autoimmune diseases. 

Stimulation of mAChRs also results in the activation or inhibition of a large number of ion channels [5]. For example, stimulation of Mi receptors leads to the suppression of the so-called M current, a voltage-dependent Recurrent found in various neuronal tissues. M2 receptors, on the other hand, mediate the opening of cardiac Ikcacii) channels, and both M2 and M4 receptors are linked to the inhibition of voltage-sensitive calcium channels [5]. 

Receptor binding studies have shown that H-LSD labels 5-HT2 receptors in neuronal tissue (Peroutka 1987). LSD has also been shown to bind with high affinity to a subtype of the 5-HTj receptor (5-HTjq), a site that also displays a high affinity for 5-HT (Glennon et al. 1986 Peroutka 1987). 

The toxic mechanism of action of these various jellyfish venoms is complex. The cardiotoxic reaction seems to focus on calcium transport and is blocked by the prior or post administration of therapeutic doses of verapamil (7J). In neuronal tissue, Chrysaora venom induces large cationic selective channels which open and close spontaneously. These channels are permeable to Na , Li, K, and Cs but not and the channels are present in spite of the treatment with sodium and potassium inhibitors such as tetrodotoxin and tetraethylammonium (14). 

Many early studies of transmitter release depended on measuring its concentration in the effluent of a stimulated, perfused nerve/end-organ preparation. This technique is still widely used to study drug-induced changes in noradrenaline release from sympathetic neurons and the adrenal medulla. However, it is important to realise that the concentration of transmitter will represent only that proportion of transmitter which escapes into the perfusate ( overflow ) (Fig. 4.2). Monoamines, for instance, are rapidly sequestered by uptake into neuronal and non-neuronal tissue whereas other transmitters, such as acetylcholine, are metabolised extensively within the synapse. Because of these local clearance mechanisms, the amount of transmitter which overflows into the perfusate will depend not only on the frequency of nerve stimulation (i.e. release rate) but also on the dimensions of the synaptic cleft and the density of innervation. 

Sawyer TW, Weiss MT, D Agostino PA, et al. 1992. Bioassay of organophosphate nerve agents in soil using neuronal tissue cultures. J Appl Toxicol 12(1) 1-6. 

Albert, V. R., Allen, J. M., and Joh, T. H. (1987). A single gene codes for aromatic L-amino acid decarboxylase in both neuronal and non-neuronal tissues. J. Biol. Chem. 262 9404-9411. 

Foetal development promotes growth and differentiation of foetal cells and organogenesis Promotes longitudinal body growth and increased body weight Promotes enhanced functioning of the male and female reproductive tissue Promotes growth and differentiation of neuronal tissue... 

Cholinesterases are widely distributed throughout the body in both neuronal and non-neuronal tissues 195... 

Cholinesterases are widely distributed throughout the body in both neuronal and non-neuronal tissues. Based largely on substrate specificity, the cholinesterases are subdivided into the acetylcholinesterases (AChEs) (EC... 

Since then, a plethora of tyrosine-phosphorylated proteins has been discovered. Originally, tyrosine phosphorylation was believed to be involved primarily in regulating cell proliferation, since many oncogene products and growth factor receptors are protein tyrosine kinases (PTKs). However, it has become clear that tyrosine phosphorylation is involved in regulating a variety of cellular processes. In fact, the nervous system contains a large variety of PTKs and protein tyrosine phosphatases (PTPs), and some of these are exclusively expressed in neuronal tissues. Figure 24-1 shows the... 

Borowitz JL, Rathinavelu A, Kanthasamy A, etal. 1994. Accumulation of labeled cyanide in neuronal tissue. Toxicol Appl Pharmacol 129 80-85. 

In an attempt to find an in vitro assay to predict differences in the neurotoxic potential of bisindole alkaloids, an assay using cultured rat midbrain cells was developed. This system provided a qualitative measure of the effect of compounds on neuronal tissue, and when several compounds (for which clinical toxicity data were available) were evaluated using this method the results were consistent in rank order with the compounds clinical manifestation of neurotoxicity. When vinepidine was studied in this system, it was found to produce a minimal effect (Fig. 7). 

Treatment of cells with vinblastine or vincristine can result in the formation of paracrystals, complexes containing the alkaloid molecules and tubulin dimers in a 1 1 ratio. Paracrystal formation in neuronal tissue of a freshwater snail has been proposed as a model for the neurotoxic effects of Catharanthus alkaloids and derivatives 44). Vincristine is approximately 10-fold more active than vinblastine as an inducer of paracrystal formation when snail neuronal tissue is treated with high concentrations (150 lM) of the alkaloids. 

Half-lives estimated after the administration of vinblastine to patients were 4 min, 1.6 hr, and 25 hr, indicating rapid distribution of the drug to most tissues, relatively rapid clearance, and a subsequent slow terminal elimination process. The distribution and initial clearance phase for vincristine are kinetically comparable to those observed for vinblastine half-lives for these phases have been reported to be 4 min and 2.3 hr in studies with vincristine. The terminal elimination phase for vincristine has been reported to be three to four times longer than that estimated for vinblastine, and the slow elimination of vincristine from susceptible neuronal tissue has been suggested to play a role in the neurotoxicity commonly observed in clinical settings with vincristine but not with vinblastine 51). 

Incidents of vincristine overdosage have been reported relatively frequently in the medical literature. Some of these have involved inadvertent administration of the intravenous formulation into the central nervous system by the intrathecal route this produces devastating results by a combination of chemical damage to sensitive neuronal tissue as well as biochemical perturbations. Two representative cases of vincristine overdose were described (46) involving administration of vincristine to patients scheduled to receive vinblastine. In one patient toxicity initially involved vomiting and diarrhea with subsequent constipation and paralytic ileus (inhibition of motor activity in the small intestine). Muscle pain... 

Originally, it was assumed that while the CBi receptor is found primarily in the brain and neuronal tissue, while the CB2 receptor is found exclusively outside the central nervous system, primarily in immune tissue. However, Van Sickle etal. reported the expression of CB2 receptor mRNA and protein localization on brainstem neurons. Recently, it was demonstrated that CB2 receptor and their gene transcripts are also distributed in the mammalian brain. The levels of CB2 receptors in brain are... 

---