Histamine H1-Receptors Modulate Somatostatin Receptors Coupled to the Inhibition of Adenylyl Cyclase in the Rat Frontoparietal Cortex

Puebla, L., A. OcaÑa and E. Arilla. Histamine H₁-receptors modulate somatostatin receptors coupled to the inhibition of adenylyl cyclase in the rat frontoparietal cortex. Peptides 18(10) 1569–1576, 1997.—Since exogenous histamine has been previously shown to increase the somatostatin (SS) receptor-effector system in the rat frontoparietal cortex and both histamine H₁-receptor agonists and SS modulate higher nervous activity and have anticonvulsive properties, it was of interest to determine the participation of the H₁-histaminergic system in this response. The intracerebroventricular (i.c.v.) administration of the specific histamine H₁-receptor agonist 2-pyridylethylamine (PEA) (10 μg) to rats 2 h before decapitation increased the number of SS receptors (599 ± 40 vs 401 ± 31 femtomoles/mg protein, p< 0.01) and decreased their apparent affinity for SS (0.41 ± 0.03 vs 0.26 ± 0.02 nM, p < 0.01) in rat frontoparietal cortical membranes. No significant differences were seen for the basal and forskolin (FK)-stimulated adenylyl cyclase (AC) activities in the frontoparietal cortex of PEA-treated rats when compared to the control group. In the PEA group, however, the capacity of SS (10⁻⁴ M) to inhibit basal and FK (10⁻⁵ M)-stimulated AC activity in frontoparietal cortical membranes was significantly higher than in the control group (34 ± 1% vs 20 ± 2%, p < 0.001). The ability of low concentrations of the stable GTP analogue 5′-guanylylimidodiphosphate [Gpp(NH)p] to inhibit FK-stimulated AC activity in frontoparietal cortical membranes was similar in the PEA-treated and control animals. These results suggest that the increased SS-mediated inhibition of AC activity in the frontoparietal cortex of PEA-treated rats may be due to the increase of the number of SS receptors induced by PEA. Pretreatment with the H₁-receptor antagonist mepyramine (30 mg/kg, intraperitoneally (IP) prevented the PEA-induced changes in SS binding and SS-mediated inhibition of AC activity. Mepyramine (30 mg/kg, IP) alone had no observable effect on the somatostatinergic system. The in vitro addition of PEA or mepyramine to frontoparietal cortical membranes obtained from untreated rats did not affect the SS binding parameters. Altogether, these results suggest that the H₁-histaminergic system modulates the somatostatinergic system in the rat frontoparietal cortex.     

Involvement of Presynaptic Histamine H3 Receptors in the Modulation of Somatostatin Binding and Its Effects on Adenylyl Cyclase Activity in the Rat Frontoparietal Cortex

Abstract: Thioperamide (2 mg/kg, i.p.), a histamine H₃-receptor antagonist, increased the number of somatostatin (SS) receptors, with no change in the affinity constant, in the rat frontoparietal cortex. This effect was prevented by treatment with ( R )-α-methylhistamine (3.2 mg/kg, i.p.), a histamine H₃-receptor agonist. Thioperamide also induced an increase in SS binding in rats pretreated with mepyramine, a histamine H₁-receptor antagonist, or cimetidine, a histamine H₂-receptor antagonist. Pretreatment with mepyramine plus cimetidine administered simultaneously antagonized the thioperamide effect on SS binding. The increase in the number of SS receptors was accompanied by a greater SS-mediated inhibition of basal and forskolin-stimulated adenylyl cyclase (AC) activity in frontoparietal cortical membranes in the thioperamide group. Furthermore, the functional activity of the guanine nucleotide-binding inhibitory protein (G_i protein) was not altered by thioperamide or ( R )-α-methylhistamine administration in frontoparietal cortical membranes. In rats treated with mepyramine plus thioperamide or cimetidine plus thioperamide, the increase in the number of SS receptors was also accompanied by an increased SS inhibition of AC activity. Thioperamide induced a significant increase in SS-like immunoreactivity content in the frontoparietal cortex. Altogether, these results suggest that frontoparietal cortical histamine may play, at least in part, a role in the regulation of the somatostatinergic system.     

Exposure to Intermittent High Altitude Induces Different Changes in Adenylyl Cyclase Activity in Hearts of Young and Adult Wistar Rats

Abstract

This study investigates changes of adenylyl cyclase activity in the heart of young and adult Wistar rats exposed to experimental conditions simulating high altitude hypoxia as a model for interpretation of some adaptive changes of adenylyl cyclase observed in human. The exposure of rats to intermittent high altitude (IHA) hypoxia (5000 m) showed significant adaptive changes. The right ventricular weight and the ratio of right/left ventricular weights of adult rats exposed to IHA were significantly increased when compared to appropriate controls; adaptive changes of cardiac adenylyl cyclase being dependent on the age of the animals. The isoprenaline‐stimulated activity was higher in the left than in the right ventricle, and in both ventricles it was higher in young rats than in adult rats. When compared to controls, isoprenaline stimulation was decreased in the right ventricles of adapted young rats and, by contrast, it was increased in the left ventricles of adapted adult rats. This decrease and increase of adenylyl cyclase activity evoked by isoprenaline was paralleled by forskolin‐induced adenylyl cyclase activity in these experimental groups. It seems therefore that the changes in the pattern of total adenylyl cyclase activity observed under IHA hypoxia may at least be partially explained by the changes of beta‐adrenergic receptor susceptibility following IHA hypoxia.     

Participation of Tubulin in the Stimulatory Regulation of Adenylyl Cyclase in Rat Cerebral Cortex Membranes

Abstract: This study examined effects of tubulin on the activation of adenylyl cyclase in rat cerebral cortex membranes. Tubulin, prepared from rat brain by polymerization with the hydrolysis-resistant GTP analogue 5'-guanylylimidodiphosphate (GppNHp) caused significant activation of the enzyme by ∼156% under conditions in which stimulation rather than inhibition of the enzyme was favored. Tubulin-GppNHp activated isoproterenol-sensitive adenylyl cyclase, potentiated forskolin-stimulated activity of the enzyme, and reduced agonist binding affinity for β-adrenergic receptors. When tubulin, polymerized with the hydrolysis-resistant photoaffinity GTP analogue [³²P] P ³(4-azidoanilido)- P ¹-5'-GTP ([³²P]AAGTP), was incubated with cerebral cortex membranes, AAGTP was transferred from tubulin to G_sα as well as G_iα. These results suggest that, in rat cerebral cortex membranes, the tubulin dimer participates in the stimulatory regulation of adenylyl cyclase by transferring guanine nucleotide to G_sα, as well as affecting the G_i-mediated inhibitory pathway.     

A Quantitative Study of the Ca2+/Calmodulin Sensitivity of Adenylyl Cyclase in Aplysia, Drosophila, and Rat

Studies in Aplysia and Drosophila have suggested that Ca2+/calmodulin-sensitive adenylyl cyclase may act as a site of convergence for the cellular representations of the conditioned stimulus (Ca2+ influx) and unconditioned stimulus (facilitatory transmitter) during elementary associative learning. This hypothesis predicts that the rise in intracellular free Ca2+ concentration produced by spike activity during the conditioned stimulus will cause an increase in the activity of adenylyl cyclase. However, published values for the Ca2+ sensitivity of Ca2+/calmodulin-sensitive adenylyl cyclase in mammals and in Drosophila vary widely. The difficulty in evaluating whether adenylyl cyclase would be activated by physiological elevations in intracellular Ca2+ levels is in part a consequence of the use of Ca2+/EGTA buffers, which are prone to several types of errors. Using a procedure that minimizes these errors, we have quantified the Ca2+ sensitivity of adenylyl cyclase in membranes from Aplysia, Drosophila, and rat brain with purified species-specific calmodulins. In all three species, adenylyl cyclase was activated by an increase in free Ca2+ concentration in the range caused by spike activity. Ca2+ sensitivity was dependent on both calmodulin concentration and Mg2+ concentration. Mg2+ raised the threshold for adenylyl cyclase activation by Ca2+ but also acted synergistically with Ca2+ to activate maximally adenylyl cyclase.     

Epidermal Growth Factor Promotes Uncoupling from Adenylyl Cyclase of the Rat D2S Receptor Expressed in GH4C1 Cells

Abstract: In anterior pituitary cells or when transfected into host cell lines, the D₂ dopamine receptor inhibits adenylyl cyclase and activates potassium channels. The GH-3 pituitary tumor cell line, which lacks functional D₂ receptors, responds to epidermal growth factor (EGF) by expressing a D₂ receptor that, paradoxically, couples to potassium channel activation but poorly inhibits adenylyl cyclase; this was correlated with a pronounced increase in α subunit of the G protein G₁₃. In this study we have investigated the effects of EGF on the transduction mechanisms of D₂ receptors in GH4C1 cells transfected and permanently overexpressing the rat short D₂ receptor. Activation of D₂ receptors in these cells resulted in both inhibition of adenylyl cyclase and opening of potassium channels and inhibition of prolactin release by both cyclic AMP-dependent and independent mechanisms. Exposure of the transfected GH4C1 cells to EGF caused a dramatic decrease in the coupling efficiency of the D₂ receptor to inhibit cyclic AMP-dependent responses, leaving its activity toward potassium channels unchanged. The EGF treatment led to the concomitant increase in the membrane content of G₁₃ protein. These results suggest that the transmembrane signaling specificity of G protein-coupled receptors can be modulated by the relative amounts of different G proteins at the cell membrane.     

腺苷酸环化酶3缺失对小鼠主要嗅觉表皮组织内相关因子及信号通路的影响

主要嗅觉表皮(main olfactory epithelium, MOE)是哺乳动物感知气味分子的主要嗅觉器官。在MOE组织内,大多数嗅觉神经元通过cAMP信号传导通路感知气味信息。作为嗅觉cAMP信号通路的主要成员之一,腺苷酸环化酶3（adenylyl cyclase 3, ac3）基因敲除小鼠嗅觉探测功能丧失。除cAMP信号传导通路外,MOE内AC3相关因子AC2和AC4,以及肌醇1,4,5-三磷酸（inositol 1,4,5-trisphosphate,IP3）信号通路和Sonic Hedgehog（Shh）信号通路均有表达。然而,敲除ac3是否会对ac2和ac4以及IP3和Shh信号通路成员产生影响,尚不清楚。本文以AC3缺失（AC3-/-）及其野生型小鼠（AC3+/+）MOE为材料,采用实时荧光定量PCR（qRT-PCR）和免疫荧光组织化学方法,发现AC3缺失后,MOE内的ac2和ac4,以及IP3信号通路中的IP3受体ip3r1及钙调蛋白calm1和calm2表达水平均明显降低。Shh信号通路中的受体patched(ptch)与smoothened(smo)、以及核转录因子gli1与gli2的表达也受到了影响。总之,AC3基因缺失不但导致小鼠MOE组织中cAMP信号通路受损,同时AC3相关因子,IP3信号通路和Shh信号通路的传导也受到抑制。本文对于阐明AC3基因敲除小鼠嗅觉丧失的原因及其嗅觉探测机制具有重要启示作用。     

Effect of In Vivo Modulation of Membrane Docosahexaenoic Acid Levels on the Dopamine-Dependent Adenylate Cyclase Activity in the Rat Retina

Abstract: We have studied the effect of a dietary deprivation of n-3 fatty acids on the activity of the dopamine (DA)-de-pendent adenylate cyclase in the rat retina. Experiments were conducted in 6-month-old rats raised on semipurified diets containing either safflower oil (n-3 deficient diet) or soybean oil (control diet). The levels of docosahexaenoic acid [22:6 (n-3)] in retinal phospholipids were significantly decreased in n-3 deficient rats (35–42% of control levels). This was compensated by a rise in 22:5 (n-6), the total content of poly-unsaturated fatty acids (PUFA) remaining approximately constant. Adenylate cyclase activity was measured in retinal membrane preparations from dark-adapted or light-exposed rats. The enzyme activity was stimulated by DA and SKF 38393 in a light-dependent fashion. The activation was lower in rats exposed to light than in dark-adapted animals, suggesting a down-regulation of the DI DA receptors by light. The activation by guanine nucleotides and forskolin was also decreased in light-exposed rats. There was no significant effect of the dietary regimen on the various adenylate cyclase activities and their response to light. Furthermore, the guanine nucleotide- and DA-dependent adenylate cyclase activities of retinal membranes were found to be relatively resistant to changes in membrane fluidity induced in vitro by benzyl alcohol. The results indicate that in the absence of changes in total PUFA content, a decreased ratio of n-3 to n-6 fatty acids in membrane phospholipids does not significantly affect the properties of adenylate cyclase in the rat retina.     

Chronic Electroconvulsive Treatment Augments Coupling of the GTP-Binding Protein Gs to the Catalytic Moiety of Adenylyl Cyclase in a Manner Similar to That Seen with Chronic Antidepressant Drugs

A significant increase of guanylylimidodiphosphate (GppNHp)-, fluoride-, and forskolin-stimulated adenylyl cyclase was observed in synaptic membrane preparations from rat cerebral cortex subsequent to chronic electroconvulsive shock (ECS) treatment. This effect required at least five treatments over a course of 10 days. The inhibition of adenylyl cyclase induced by GppNHp was not affected by these treatments. The dissociation constant (KD) and maximal binding for the photoaffinity GTP analog, [32P]P3-(4-azidoanilido)-P1-5'-GTP [( 32P]AAGTP), to each of the synaptic membrane G proteins also were unchanged after ECS treatment. Nonetheless, the transfer of [32P]AAGTP from Gi to Gs, which we suggest is indicative of the coupling between Gs and the adenylyl cyclase catalytic moiety, was accelerated by chronic ECS treatment but not by acute or sham treatment. Furthermore, chemical uncoupling of Gs from adenylyl cyclase rendered membranes from treated animals indistinguishable from controls. Finally, in all cases tested, membranes prepared from animals subjected to chronic treatment with amitriptyline or iprindole showed similar changes in the Gs-mediated activation of adenylyl cyclase. Acute treatments produced effects similar to controls, and liver and kidney membranes from animals receiving chronic treatment showed no changes in adenylyl cyclase despite the marked changes seen in brain. These results suggest that chronic administration of ECS enhances coupling between Gs and adenylyl cyclase enzyme and modifies interactions between Gs and Gi.     

New insights into the regulation of cAMP synthesis beyond GPCR/G protein activation: implications in cardiovascular regulation

Regulation of intracellular concentrations of cyclic AMP is one of the most ubiquitous mechanisms for regulating cellular functions. Further, the manner in which cAMP production is regulated via G proteins at the level of adenylyl cyclase activation has been studied extensively. This review focuses instead on the recently identified mechanisms and roles for regulation of adenylyl cyclase functions beyond G protein activation. These mechanisms include: a) the coupling of particular isoforms of adenylyl cyclase to function within a single cell type b) regulation of membrane trafficking of higher order enzyme aggregates and c) raf kinase-dependent phosphorylation and sensitization of adenylyl cyclases--an important pathway for crosstalk between tyrosine kinase signaling cascades with regulation of cAMP-mediated responses.     

Activation of Opioid and Muscarinic Receptors Stimulates Basal Adenylyl Cyclase but Inhibits Ca2+/Calmodulin- and Forskolin-Stimulated Enzyme Activities in Rat Olfactory Bulb

Abstract: In rat olfactory bulb, muscarinic and opioid receptor agonists stimulate basal adenylyl cyclase activity in a GTP-dependent and pertussis toxin-sensitive manner. However, in the present study, we show that in the same brain area activation of these receptors causes inhibition of adenylyl cyclase activity stimulated by Ca²⁺ and calmodulin (CaM) and by forskolin (FSK), two direct activators of the catalytic unit of the enzyme. The opioid and muscarinic inhibitions consist of a decrease of the maximal stimulation elicited by either CaM or FSK, without a change in the potency of these agents. [Leu⁵]Enkephalin and selective δ- and μ-, but not κ-, opioid receptors agonists inhibit the FSK stimulation of adenylyl cyclase activity with the same potencies displayed in stimulating basal enzyme activity. Similarly, the muscarinic inhibition of FSK-stimulated adenylyl cyclase activity shows agonist and antagonist sensitivities similar to those characterizing the muscarinic stimulation of basal enzyme activity. Fluoride stimulation of adenylyl cyclase is not affected by either carbachol or [Leu⁵]enkephalin. In vivo treatment of olfactory bulb with pertussis toxin prevents both opioid and muscarinic inhibition of Ca²⁺/CaM- and FSK-stimulated enzyme activities. These results indicate that in rat olfactory bulb δ- and μ-opioid receptors and muscarinic receptors, likely of the M4 subtype, can exert a dual effect on cyclic AMP formation by interacting with pertussis toxin-sensitive GTP-binding protein(s) and possibly by affecting different molecular forms of adenylyl cyclase.     

Proliferation and Neoplastic Transformation of Pigment Cells in Metallothionein/ret Transgenic Mice

Although melanoma is a common human disease, there were few animal models in which melanoma developed at high incidence. To date, the Xiphophorus fish has been used as a model system to study melanoma formation. Studies on this fish showed the presence of a dominant oncogene, Tu, which encodes a transmembrane, tyrosine kinase of epidermal growth factor receptor type (Wittbrodt et al., Nature, 341:415–421, 1989). Recently, we succeeded in establishing novel transgenic mouse lines in which melanosis and melanocytic tumors developed stepwise by introducing another transmembrane tyrosine kinase oncogene, ret (Iwamoto et al., EMBO J., 10:3167–3175, 1991). In our transgenic mice, high levels of expression of the ret transgene induced proliferation and neoplastic transformation of melanin-producing cells. In addition, crossbreeding experiments between transgenic mice and W^v mice showed that the ret oncogene can also induce melanogenesis and melanocyte development in W^v/W^v mice.     

糜酶转基因小鼠心脏组织中基质金属蛋白酶9的活化

为研究糜酶在心脏中的功能 ,用明胶酶谱法和放免法检测了糜酶转基因小鼠心脏组织中基质金属蛋白酶及糜酶的活力 .糜酶转基因小鼠心脏组织中糜酶样活力较转基因阴性小鼠升高了约80 % ;而其心脏匀浆液凝胶酶谱分析结果显示在 92 k D处明胶酶活力也升高约 30 % ;经 Western印迹鉴定为基质金属蛋白酶 9,而在蛋白水平上与转基因阴性小鼠无显著差异 .结果提示 ,糜酶转基因小鼠心脏组织中糜酶活力的升高可活化基质金属蛋白酶 9,从而影响心脏胶原代谢 .     

基于四环素调控系统的ApoE-rtTA/TRE-HCV-C双转基因小鼠的制备

目的为了丰富现有的四环素调控系统的小鼠资源库,同时也为更好地研究目的基因HCV-C的作用机制提供一个活体的动物模型,制备基于四环素调控系统原理的调控部分ApoE-rtTA的转基因小鼠,与反应部分TRE-HCV-C转基因小鼠,相互交配制作出双转基因小鼠。方法应用显微注射法将构建好的两种基因片段ApoE-rtTA及TRE-HCV-C分别注入超排的昆明母鼠的受精卵,再植入假母输卵管,出生动物及其后代经PCR初步筛选出阳性,将两者及阳性后代交配产生携带5只转基因鼠再经Western blot和RT-PCR在RNA和蛋白水平上进一步鉴定。结果产生了3只整合有ApoE-rtTA基因的首见鼠和125只阳性子代,以及产生了5只整合有TRE-HCV-C基因的首见鼠和16只阳性子代。PCR及Southern Blot证实上述阳性鼠确有转基因整合。将两者交配产生携带5只双转基因鼠。结论成功制备了携带有ApoE-rtTA及TRE-HCV-C转基因小鼠,建立了分别携带有这两种基因的鼠群,以及同时携带有两种基因的双转基因小鼠,为四环素调控系统提供了一个良好的通用型的调控动物模型,同时也可利用四环素调控系统来研究HCV中的C基因对小鼠的作用,也是HCV-C基因功能研究及与肝细胞癌的关系的机制研究的一个有用工具。     

C57BL／6J-HBV转基因小鼠血清生化指标与性别年龄的关系

目的观察C57BL/6J-HBV乙型肝炎病毒转基因小鼠血清总胆红素（T-BIL）、丙氨酸氨基转移酶（ALT）、天冬氨酸氨基转移酶（AST）、总蛋白（TP）和白蛋白（ALB）与性别和年龄的关系,以及与遗传背景相同的C57BL／6J小鼠的差异。方法选取8周龄和24周龄的C57BL／6J-HBV转基因小鼠及C57BL／6J小鼠的血清测定T-BIL、ALT、AST、TP和ALB值。结果C57BL／6J-HBV转基因小鼠与同周龄同性别的C57BL／6J小鼠相比,T-BIL、ALT、AST、TP和ALB均存在显著差异（P〈0．05）;24周龄的C57BL／6J-HBV转基因小鼠ALT和AST与其8周龄鼠相比均存在显著差异（P〈0．05）。结论C57BL／6J-HBV转基因小鼠T-BIL、ALT、AST、TP和ALB值显著高于C57BL／6J小鼠;且C57BL／6J-HBV转基因小鼠ALT和AST值与年龄有关,与性别无关。     

不同固定方法处理小鼠视网膜行免疫荧光染色的效果比较

目的:免疫荧光染色(ImmunofluorescenceStaining, IF)是进行视网膜研究的重要方法之一。为了获得最优的IF结果,我们对视网膜的固定方法进行优化。方法:以小鼠视网膜为观察对象,分别采用浸泡固定方法(Immersion, I)、灌注法(Perfusion, P)以及两者联合(I+P)的方法进行固定,以IF方法对Pax6和Rhodopsin等抗原进行染色,对比各组视网膜组织的IF染色效果。其中,具体分组包括:浸泡固定2小时组(I2),浸泡固定12小时组(I12),浸泡固定24小时组(I24),灌注组(P),灌注+浸泡后固定2小时组(P+I2),灌注+浸泡后固定12小时组(P+I12)。结果:从大体结构来看,P+I2组的固定良好率达100%,I12、I24、P+I12组的良好率达83.33%,I2组和P组较低,分别是16.67%和0%。从Pax6的IF染色来看,I12组的染色满意度达100%,P+I2组和P+I12组的满意度为83.33%,I2组、I24组和P组的满意度较低,为16.67%。从Rhodopsin的IF染色结果来看,P+I2组和P+I12组的染色满意度为83.33%,I24组为50%,I2组、I12组和P组都为0%。P+I12组的视网膜切片行NF-M、PKC-α和glutamine synthetase (GS)染色也可获得良好的阳性结果。结论:综合大体结构、Pax6染色以及Rhodopsin染色等结果,P+I2组和P+I12组的效果最好,视网膜组织结构完整,IF方法行Pax6和Rhodopsin等的染色效果良好。因此,针对小鼠的神经视网膜进行IF相关实验时,灌注结合浸泡后固定2至12小时,可以作为最优的组织固定方法。     

Over-Expression of the DM-20 Myelin Proteolipid Causes Central Nervous System Demyelination in Transgenic Mice

Abstract: We have created transgenic mice bearing varying copy numbers of a transgene coding for normal DM-20, the alternatively spliced quantitatively minor isoform of myelin proteolipid protein. Demyelination of the CNS occurs as a consequence of 70 copies of this transgene. Overt symptoms begin at ∼3 months with a wobbling gait. Occasional seizures lasting a few seconds begin at 3–4 months. These symptoms progress in severity with age. Death occurs by 8–10 months. Myelination in 2-month-old animals, before the onset of any overt symptoms, appears morphologically normal at the electron microscopic level. However, the myelin in these 2-month-old animals has a reduced amount of the major myelin proteolipid protein and about three times as much DM-20 as normal animals. In 7-month-old animals that appear to be undergoing demyelination in the CNS, both the major myelin proteolipid protein and DM-20 are greatly reduced relative to the 2-month-old animal. Mice with 17 copies of the transgene also have a reduced amount of the major myelin proteolipid protein but appear to be otherwise normal and have normal life spans (>2 yr). Mice with low copy numbers of the transgene (2–4 copies) appear to be unaffected and have normal life spans.     

Molecular Characterization of the Mouse Tyrosinase Gene:Pigment Cell-Specific Expression in Transgenic Mice

Tyrosinase is the key enzyme in melanin synthesis, and is expressed in the pigment epithelium of the retina, a cell layer derived from the optic cup; and in neural crest-derived melanocytes of skin, hair follicle, choroid, and iris. The tyrosinase gene has been cloned and shown to map to the well-characterized c-locus (albino locus) of the mouse. Subsequent studies demonstrated that a functional tyrosinase minigene was able to rescue the albino phenotype in transgenic mice. The transgene was expressed in a cell type-specific manner in skin and eye. During development of the mouse, the tyrosinase gene is expressed in the pigment epithelium of the retina as early as day 10.5 of gestation. In the hair follicle, tyrosinase gene expression is detected from day 16.5 onwards. This cell-type–specific expression is largely reproduced in transgenic mice. Our results suggest that sequences in the immediate vicinity of the mouse tyrosinase gene are sufficient to provide cell type-specificity and developmental regulation in melanocytes and the pigment epithelium.