Electron microscopic localization of 5''-nucleotidase in the stratum intermedium and ameloblasts

Synopsis 5-nucleotidase was demonstrated at the fine structural level in the stratum intermedium and ameloblasts of the first mandibular molars of CD-1 mice. The enzyme was localized with the Wachstein & Meisel (1957) method along the plasma membranes of the cells of the stratum intermedium and ameloblasts. While 5-nucleotidase was present throughout the stratum intermedium, only the proximal region of the plasma membranes of ameloblasts was demonstrably active for this enzyme. 5-Nucleotidase has been implicated in transport of metabolites across cell membranes, and its localization in the present study supports this implication as well as the transport functions of the stratum intermedium and the stratum intermedium-ameloblastic interface.     

Ultrastructure of the human enamel organ

Summary The fine structure of external enamel epithelium, stellate reticulum and stratum intermedium in primary tooth germs (bell stage) from four human foetuses was investigated.Characteristically, the cells of the differentiated external enamel epithelium, stellate reticulum and stratum intermedium exhibit many free ribosomes, few rough endoplasmic reticulum cisterns, well-developed Golgi complexes, many coated and smooth vesicles, often in relation to the cell membranes, and many bundles of tonofilaments. The cells are connected by numerous desmosomes and gap junctions.A parallel differentiation of stratum intermedium — external enamel epithelium, and the ameloblast layer is demonstrated.The morphology of the cells of the three layers indicates that these have secretory, transport and supporting functions.     

Calmodulin blocker inhibits Ca++-ATPase activity in secretory ameloblast of rat incisor

Summary The effects of the calmodulin blocker, trifluoperazine (TEP), on membrane-bound Ca⁺⁺ -ATPase, Na⁺ -K⁺ -ATPase (EC 3.6.1.3.) and the ultrastructure of the enamel organ were investigated in the lower incisors of normal and TFP-injected rats. The rats, of about 100 g body weight, were given either 0.2 ml physiological saline or 100 g TFP dissolved in 0.2 ml physiological saline through a jugular vein and fixed by transcardiac perfusion with a formaldehyde-glutaraldehyde mixture at 1 and 2 h after TFP administration. Non-decalcified sections of the enamel organ less than 50 m in thickness, prepared from dissected lower incisors, were processed for the ultracytochemical demonstration of Ca⁺⁺-ATPase and Na⁺-K⁺ -ATPase by the one-step lead method at alkaline pH. In control saline-injected animals the most intense enzymatic reaction of Ca⁺⁺-ATPase was demonstrated along the plasma membranes of the entire cell surfaces of secretory ameloblasts. Moderate enzymatic reaction was also observed in the plasma membranes of the cells of stratum intermedium and papillary layer. Reaction precipitates of Na⁺-K⁺-ATPase activity were localized clearly along the plasma membranes of only the cells of stratum intermedium and papillary layer. The most drastic effect of TFP was a marked disappearance of enzymatic reaction of Ca⁺⁺-ATPase from the plasma membranes of secretory ameloblasts, except for a weak persistent reaction in the basolateral cell surfaces of the infranuclear region facing the stratum intermedium. The cells of stratum intermedium and papillary layer, however, continued to react for Ca⁺⁺-ATPase even after TFP treatment. Similarly, Na⁺-K⁺-ATPase activity in these cells was not inhibited by TFP administration. Ultrastructural examination of secretory ameloblasts revealed that administration of TFP caused no considerable cytological changes and did not act as a cytotoxic agent. These results suggest that secretory ameloblasts may have an active Ca⁺⁺ transport system, which is modulated by an endogenous calmodulin.     

The effects of magnesium and calcium ions on phosphatase activities at alkaline pH in the molar region of newborn mice

Summary The hydrolysis of ATP, AMP and glycerophosphate (GP) at alkaline pH in mineralizing bone and teeth of young mice has been studied histochemically. The substrates were visibly hydrolyzed to the same degree in osteoblasts, cells of stratum intermedium, odontoblasts and subodontoblasts at Ca²⁺ concentrations ranging from 10 mM to 600 mM. In the ameloblasts, however, only ATP was hydrolyzed. The ATPase activities gradually decreased at increasing Mg²⁺/Ca²⁺ ratios. The AMPase and GPase activities, on the other hand, were visibly unaffected. Marked cellular staining, including the nuclei was seen with AMP and GP as substrates when only Mg²⁺ ions were added. No ATPase activity at all could be recorded in media containing Mg²⁺ but no Ca²⁺ ions. The different phosphatase activities in cells involved in hard tissue formation were identically affected by preincubations with solutions containing various concentrations of Ca²⁺ or Mg²⁺ ions. The ATPase activity in striated muscle fibres and blood vessel walls, however, was affected differently by the same procedure.The results indicate that the phosphatase activities recorded in osteoblasts, cells of stratum intermedium, odontoblasts and subodontoblasts at alkaline pH belong to one single enzyme. The results also imply that CaATP is the preferred substrate in the enzymatic hydrolysis of ATP in hard-tissue-forming cells.     

Keratinization of the outer surface of the avian scutate scale: Interrelationship of alpha and beta keratin filaments in a cornifying tissue

Summary The outer surface of adult Gallus domesticus scutate scale was studied as a model for epidermal cornification involving accumulation of both alpha and beta keratins. Electron-microscopic analysis demonstrated that the basal cells of the adult epidermis contained abundant lipid droplets and that filament bundles and desmosomes were distributed throughout the cell layers. Indirect immunofluorescence microscopy and double-labeling immunogold-electron microscopy confirmed that the stratum germinativum contained alpha keratin but not beta keratin. Beta keratins were first detected in the stratum intermedium and were always found intermingled with filament bundles of alpha keratin. As the differentiating cells moved into the outer regions of the stratum intermedium and the stratum corneum, the large mixed keratin filament bundles labeled increasingly more with beta keratin antiserum and relatively less so with alpha keratin antiserum. Sodium dodecyl sulfate-polyacrylamide gel analysis of vertical layers of the outer surface of the scutate scale confirmed that cells having reached the outermost layers of stratum corneum had preferentially lost alpha keratin. The mixed bundles of alpha and beta keratin filaments were closely associated with desmosomes in the lower stratum intermedium and with electron-dense aggregates in the cytoplasm of cells in the outer stratum intermedium. Using anti-desmosomal serum it was shown that these cytoplasmic plaques were desmosomes.     

Phagocytosis and elimination of amelocyte debris by stratum intermedium cells in the transitional zone of the enamel organ of the rat incisor

Summary In the transitional zone of the enamel organ (rat) some of the amelocytes perish. Their debris is phagocytized and digested by stratum intermedium cells and macrophages. These two cell types also seem to remove cytosegresomes expelled from those amelocytes which survive and redifferentiate into transporting amelocytes. Digestion of the amelocyte debris in the stratum intermedium cells is effected rapidly and completely. Degeneration of stratum intermedium cells was not observed in the transitional zone.This work was supported by grants from The Danish Medical Research Council (512-149/69 and 512-1008/71) and The Danish Science Research Council (512-1009/71).     

Epithelial cytodifferentiation and extracellular matrix formation in enamel-free areas of the occlusal cusp during development of mouse molars: light and electron microscopic studies

Mandibular first molars in mice ranging in age from 18 days prenatal to 5 days postnatal were used for light and electron microscopic examinations of the enamel-free area (EFA) during development of the occlusal cusp (mesiobuccal cusp). Notable morphological changes in the inner enamel epithelium and the cells of the stratum intermedium were observed. At prenatal age of 18 days, the inner enamel epithelium of the EFA (EFA epithelium) was composed of a layer of columnar cells and covered by the cells of the stratum intermedium. Two days after birth, the EFA epithelium was made up largely of preameloblasts, with mitochondria located in the proximal side of the cells toward the stratum intermedium. The cells of the stratum intermedium were irregularly shaped, with wide intercellular spaces between them. At a postnatal age of 3 days, most of the EFA epithelial cells resembled maturation-stage ameloblasts, being short and columnar in shape and having nuclei located in their proximal side. Distal cell membranes were folded, and mitochondria were scattered throughout the cytoplasm. In 4-day-old mice, the EFA epithelium was found to be formed of short columnar or cuboidal cells with distinct intercellular spaces. The cells of the stratum intermedium could no longer be detected, and cells of the EFA epithelium could not be distinguished from those of the stellate reticulum. Odontoblasts of the EFA were arranged and polarized parallel to the basal lamina, and odontoblastic processes extended toward the cusp tip. The orientation of thin and thick collagen fibers within predentin and dentin was also parallel to the basal lamina. Even after dentin mineralization, disrupted basal lamina and long, aperiodic, fine fibrils were found between the epithelium and the dentin. Following the disappearance of the basal lamina and fine fibrils, stippled material and crystals appeared on the dentin surface. The mineralized matrix, which x-ray microanalytical energy peaks identified as containing calcium and phosphorus, was continuous with enamel in the distal slope of the cusp at the cusp tip. Thus, the inner enamel epithelium of the EFA differentiated into secretory cells capable of enamel-like matrix formation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Stratum intermedium lineage diverges from ameloblast lineage via Notch signaling

The stratum intermedium develops as flattened cell layers on the proximal side of the ameloblast layer during tooth development. However, little information is available regarding the origin and the role. In this study, we indicate that some stratum intermedium cells originate from the inner enamel epithelium (IEE) in rat incisor organ cultures using DiI as a tracer. Immunohistochemical and in situ hybridization studies showed that the stratum intermedium cells express the Notch1 protein and Hes1 mRNAs, while the IEE and ameloblasts express the Jagged1. Further, we examined the role of Notch signaling using the dental epithelial cell line HAT-7. Recombinant Jagged1 protein enhanced the appearance of stratum intermedium cells in HAT-7 cultures and neutralization with an anti-Jagged1 antibody inhibited these effects. Additionally, overexpression of the Notch1 internal domain increased the number of stratum intermedium cells. We hypothesize that the stratum intermedium lineage differentiates from the ameloblast lineage via Notch signaling.     

Cytochemical localization of adenosine triphosphatase in the phloem of Pisum sativum and its relation to the function of transfer cells

The cytochemical localization of ATPase in differentiating and mature phloem cells of Pisum sativum L. has been studied using a lead precipitation technique. Phloem transfer cells at early stages of differentiation exhibit strong enzyme activity in the endoplasmic reticulum (ER) and some reaction product is deposited on the vacuolar and plasma membranes. As the phloem transfer cells mature and develop their characteristic wall structures, strong enzyme activity can be observed in association with the plasma membranes and nuclear envelopes. Mature phloem transfer cells with elaborate cell-wall ingrowths show ATPase activity evenly distributed on plasma-membrane surfaces. Differentiating sieve elements show little or no enzyme activity. When sieve elements are fully mature they have reaction product in the parietal and stacked cisternae of the ER. There is no ATPase activity associated with P-protein at any stage of sieve-element differentiation or with the sieve-element plasma membranes. It is suggested that the intensive ATPase activity on the plasma membranes of the transfer cells is evidence for a transport system involved in the active movement of photosynthetic products through these cells.Key to labeling in the figures ER endoplasmic reticulum - P parenchyma cell - PP P-protein - SE sieve element - SPP sieve-plate pore - TC transfer cell     

Structural and histochemical aspects of epidermis development of fetal porcine skin

Epidermal development of fetal porcine skin was studied in fetuses from 41 days of gestation until birth with scanning and electron microscopy techniques as well as histochemical methods, including immunohistochemistry. The porcine fetus develops a relatively thick and solid multilayered cover of epidermal cells, which is not lost before birth. It consists of tightly packed cells of the periderm and the stratum intermedium. The periderm cells are totally filled with filamentous proteins; in the intermediate cells, the filamentous proteins are concentrated in the cell periphery, forming a thick marginal zone. Immunohistochemically, the cytofilaments could be identified as cytokeratins of lower and higher molecular weights. The first thin stratum corneum lamellae are formed below the stratum intermedium at about 80-85 days of gestation.     

Correlation between immuno-gold labels and activities of the cytochrome-c oxidase (aa3-type) in membranes of salt stressed cyanobactria

Abstract Anacystis nidulans ( Synechococcus PCC6301) and Synechocystis PCC6803 were grown photoautotrophically in a turbido-statically operated chemostat at a constant cell concentration of 2.0±0.3 μ l packed cell mass per ml in the presence of elevated NaCl concentrations up to 0.5 M ('salt stress'). The impact of salt stress on ccytochrome- c oxidase (EC 1.9.3.1) was` studied on isolated and purified membranes, and by immuno-gold labeling of thin-sectioned whole cells ATPase activities of membranes isolated and separated from cells under varying salt stress were also measured. Anacystis and Synechocystis adapted to the presence of 0.5 M NaCl in the medium with lag phases of 2 days and 2 hours, respectively. Both isolated plasma and thylakoid membranes from salt adapted Synechocystis displayed 5- to 8-times enhanced cytcytochrome- c oxidase activities while in Anacystis the effect was restricted to the plasma membrane. In either case less than proportionately increased counts of immuno-gold labeled cytochrome- c oxidase molecules in the respective membranes were obtained, the additional increment being attributed to the increased lipid content of the membranes from salt-adapted cells, leading to increased specific activities of the enzyme compared to control cells. ATPase activity of plasma membranes from Synechocystis was far more increased than of those from Anacystis while in thylakoid membranes the differentiating effect was less pronounced. Our results are discussed in terms of distinct strategies for salt adaptation in the two cyanobacterial species whereby in Anacystis the plasma membrane-bound respiratory chain and in Synechocystis the plasma membrane-bound ATPase(s) play the major role for plasma membrane energization which, in turn, is necessary for the active exclusion of sodium from the cell interior.     

Polarization of plasma membrane glycoconjugates in amphibian epidermis during metamorphosis

Summary Wheat germ agglutinin (WGA) binding sites have been examined in tadpole epidermal cells at the level of both light and electron microscopy using the WGA-ovomucoid-gold technique. In premetamorphic tadpoles the reaction was observed on the plasma membranes of epithelial cells showing a gradient from inner to outer membranes. These glycoconjugates were polarized during development, and at the end of metamorphic climax they were only located in plasma membranes of stratum corneum. The existence of an apical cell surface coat is needed to facilitate the absorption of water through the adult epidermis. The possible implications of this polarization process are discussed.     

The plasma membrane of yeast acquires a novel heat-shock protein (hsp30) and displays a decline in proton-pumping ATPase levels in response to both heat shock and the entry to stationary phase.

Recent studies have revealed that the action of the proton-translocating ATPase of the plasma membrane of yeast is an important determinant of several stress tolerances and affects the capacity of cells to synthesise heat shock proteins in response to heat shock [Panaretou, B. & Piper, P. W. (1990) J. Gen. Microbiol. 136, 1763-1770; Coote, P. J., Cole, M. B. & Jones, M. V. (1991) J. Gen. Microbiol. 137, 1701-1708]. This study investigated the changes to the protein composition of the Saccharomyces cerevisiae plasma membrane that result from a heat shock to dividing cultures and the entry to stationary growth caused by carbon source limitation. Plasma membranes were prepared from exponential, heat-shocked and stationary yeast cultures. The proteins of these membrane preparations were then analysed by polyacrylamide gel electrophoresis and immunoblot measurement of ATPase levels. The protein composition of plasma membranes displayed two prominent changes in response to both heat shock and the entry to stationary phase: (a) a reduction in the level of the plasma membrane ATPase; and (b) the acquisition of a previously uncharacterised 30 kDa heat-shock protein (hsp30). The ATPase decline with heat shock probably exerts an important influence over the ability of the cell to maintain ATPase activity, and therefore intracellular pH, during extended periods of stress. Through in vivo pulse-labelling of plasma membrane proteins synthesised before and during heat shock, followed by subcellular fractionation, it was shown that hsp30 is the only protein induced by the yeast heat-shock response that substantially copurifies with plasma membranes. It might therefore exert a stress-protective function specifically at this membrane.     

Quantitative immunoelectron microscopic localization of (Na+,K+)ATPase in rat parotid gland

Distribution of (Na+,K+)ATPase on the cell membranes of acinar and duct cells of rat parotid gland was investigated quantitatively by immunoelectron microscopy using the post-embedding protein A-gold technique. In acinar cells, ATPase was localized predominantly on the basolateral plasma membranes. A small but significant amount of (Na+,K+)ATPase was, however, detected on the luminal plasma membranes, especially on the microvillar region of the acinar cells; the surface density on the luminal membrane was approximately one third of that on the basolateral membranes. In duct cells, many gold particles were found on the basolateral membrane, especially along the basal infoldings of the plasma membranes, whereas no significant gold particles were found on the luminal plasma membranes, suggesting unilateral distribution of ATPase in duct cells. We suggest that in acinar cells sodium ion is not only transported paracellularly but is also actively transported intracellularly into the luminal space by the (Na+,K+)ATPase located on the luminal plasma membranes, and that water is passively transported to the luminal space to form a plasma-like isotonic primary saliva, while in the duct cells the same ion is selectively re-absorbed intracellularly by (Na+,K+)ATPase found in abundance along the many infoldings of the basal plasma membranes, thus producing the hypotonic saliva.     

Characterization of the membrane proteins of rat liver lysosomes. Composition, enzyme activities and turnover.

Lysosomes prepared from the livers of untreated rats and from the livers of rats injected with either Triton WR-1339 or dextran yielded membranes that were similar in both polypeptide composition and activities of ATPase and acid 5'-nucleotidase. The administration of Triton WR-1339 (and dextran) resulted in an increase in ATPase activity of liver homogenates that was associated with a parallel increase in the ATPase activity of the lysosomal membrane. On the other hand, plasma membranes appear to be different from lysosomal membranes with respect to polypeptide composition and enzyme activities. The ATPase activity of lysosomal membranes is not affected by ouabain and suramin, inhibitors of the plasma-membrane ATPase. The plasma-membrane alkaline 5'-nucleotidase has little activity at acid pH. Pulse-labelling of lysosomal membranes with [3H]fucose and with [3H]- and [14C]-leucine occurred rapidly, faster than labelling of plasma membranes. The labelling kinetics indicate that lysosomal membranes may be assembled independently of plasma membranes. These data suggest that, in liver, little bulk transport of plasma membrane to lysosomes takes place, and lysosomal-membrane proteins may not be derived from those of plasma membranes.     

Characterisation of the H+-ATPase in plasma membranes isolated from the green alga Chlamydomonas reinhardtii

Plasma membranes from the green alga Chlamydomonas reinhardtii were purified by differential centrifugation and two-phase partitioning in an aqueous polymer system. The isolated plasma membranes were virtually free from contaminating chloroplasts, mitochondria, endoplasmic reticulum and Golgi membranes as shown by marker enzyme and pigment analysis. The isolated plasma membranes exhibited vanadate sensitive ATPase activity, indicating the presence of a P-type ATPase. This was verified by using antibodies against P-type ATPase from Arabidopsis , which crossreacted with a protein of 109 kDa. The ATPase activity was inhibited to more than 90% by vanadate (K_i= 0.9 μ M ) but not affected by inhibitors specific for F- or V-type ATPases. demonstrating the purity of the plasma membranes. Mg-ATP was the substrate, and the rate of ATP-hydrolysis followed simple Michaelis-Menten kinetics giving a K_m= 0.46 m M . Free Mg²⁺ stimulated the activity, K_1/2= 0.68 m M . Maximal activity was obtained at pH 8. The ATPase activity was latent but stimulated 10 to 20-fold in the presence of detergents. This indicates that the isolated plasma membrane vesicles were tightly sealed and mostly right-side-out, making the ATPase inaccessible to the hydrophilic substrate ATP. In the presence of the Brij 58, the isolated plasma membranes performed ATP dependent H⁺-pumping as shown by the optical pH probe acridine orange. H⁺-pumping was dependent on the presence of valinomycin and K⁺ ions and completely abolished by vanadate. Addition of Brij 58 has been shown to produce 100% sealed inside-out vesicles of plant plasma membranes (Johansson et al. 1995, Plant J. 7: 165–173) and this was also the case for plasma membranes from the green alga Chlamydomonas reinhardtii.     

Inner enamel epithelia synthesize and secrete enamel proteins during mouse molar occlusal "enamel-free area" development

Mesenchyme-derived instructions for odontogenic epithelial differentiation into ameloblasts and the production of enamel matrix has been well established. However, it is not known how position-specific differences within the enamel organ of rodent molar tooth organs regulate the enamel-forming vs. the enamel free areas in the developing cusp. Light microscopy, transmission electron microscopy, and immunocytochemistry using a rabbit anti-mouse amelogenin antibody, were used to map the position-specific patterns within the enamel organ. In the enamel-forming area, ameloblasts were associated with stratum intermedium. In the enamel-free area, another cell type was interposed between inner enamel epithelia (IEE) and stratum intermedium. IEE in the enamel-free area did not have Tomes' processes and secreted enamel matrix not only toward dentin but also between IEE cells. IEE became confluent with stellate reticulum; at this position stratum intermedium cells were no longer detected. The thickness and orientation of dentin matrix collagen fibers in the enamel-free area were different from the fibers in the enamel-forming area. These results suggest that the patterns of epithelial cell-cell and cell-matrix associations during position-specific enamel organ epithelial differentiation may regulate ameloblast matrix synthesis and/or the matrix secretion pathway.     

水稻胚乳发育中淀粉体和蛋白体ATPase活性的动态变化

利用ATPase定位技术,对水稻品种(Oryza sativa L.cv．Minghui 63)胚乳细胞发育中后期淀粉体和蛋白体的ATPase活性进行了超微细胞化学定位。结果表明,在淀粉体内外膜上、淀粉粒间的通道上和淀粉体四周的无定形物上呈现显著的ATPase活性。蛋白体Ⅰ和蛋白体Ⅱ的膜上和四周的囊泡、小泡上均出现ATPase活性产物。另外,胚乳细胞的胞壁和质膜,糊粉层和亚糊粉层细胞的胞壁、质膜、细胞核和胞间连丝上也有定位的ATPase活性产物分布。根据ATPase活性产物分布特点,推测淀粉体内的网状通道是便于养分进入淀粉体内部的转运通道。淀粉体膜和蛋白体膜上的ATPase主要是为养分进入内部提供跨膜动力。     

Immunolocalization of acidic and basic fibroblast growth factors during mouse odontogenesis.

Acidic and basic fibroblast growth factors (aFGF and bFGF), are both known to bind to extracellular matrix components, particularly proteoheparin sulfates, and to regulate in vitro proliferation, differentiation and morphology of cells of neuroectodermal and mesodermal origins. Their patterns of distribution were studied during mouse odontogenesis by means of indirect immunofluorescence and immunoperoxidase histochemistry on frozen fixed sections and after Bouin's fixative and paraffin embedding. Localization of aFGF on frozen fixed sections was observed in the oral epithelium, dental lamina and oral mesenchyme (day-12 of gestation), the stellate reticulum and oral epithelium (day-14), the stratum intermedium and at the basal and apical poles of preameloblasts at bell stage. After birth aFGF epitopes were localized within the predentin-dentin area, the stratum intermedium and at the secretory pole of ameloblasts. There was no staining with anti-aFGF antibodies after Bouin's fixative and paraffin embedding. In contrast, using this protocol, intense stainings were found with anti-bFGF antibodies predominantly within dental and peridental basement membranes and mesenchyme: staining of the dental basement membranes was transient (bud and cap stage) and discontinuous; a preferential concentration of bFGF epitopes in the condensed dental mesenchyme of incisors (cap stage) and the dental papillae mesenchymal cells of molars (bell stage) was observed in the posterior and the cervical part of tooth germs. An intense immunostaining of the stellate reticulum with anti-bFGF antibodies was also found on paraffin sections from bud to bell stage.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation and characterization of plasma membranes from the adrenal medulla.

Abstract– The isolation of a plasma membrane fraction from the bovine adrenal medulla and its characterization are described. The plasma membranes are enriched 13-fold in AChE, a plasma membrane marker, and represent 0.7% of the homogenate membrane protein. The yield of these membranes is typically 10-12% by the criterion of the percentage of total membrane bound AChE in the homogenate. The membranes were characterized as to their polypeptide, phospholipid and cholesterol content and compared with chromaffin vesicle, mitochondrial and microsomal membranes by these parameters. Two enzymatic components of the plasma membranes, ATPase and adenylate cyclase, were also studied. Calcium ATPase activity is 2.5-fold higher than magnesium ATPase activity, appears to be the result of a single enzyme, and is a genuine component of the plasma membranes. The magnesium stimulated activity appears to have at least two enzymatic components, one of which may be identical to the calcium ATPase. Adenylate cyclase is a plasma membrane component, but may not be uniquely localized there, as it is rather unstable throughout the fractionation procedure. It is stimulated by GTP (0.7-fold at 10^?5M), GPP(NH)P (4.8-fold at 10^?5M) and sodium fluoride (4.6-fold at 10^?2M). It is refractory to stimulation by all other compounds tested.