Effect of calcitonin gene-related peptide on nitric oxide production in osteoblasts: an experimental study

The aim of this study was to investigate the in vitro effects and regulatory mechanism of CGRP (calcitonin gene-related peptide) on NO (nitric oxide) production in osteoblasts. MOB (primary human mandibular osteoblasts) and osteoblast-like cells (MG-63) were either cultured with CGRP or co-incubated with inhibitors targeting eNOS (endothelial nitric oxide synthase), iNOS (inducible nitric oxide synthase), nNOS (neuronal nitric oxide synthase) and [Ca2+]i (intracellular Ca2+). The NO concentration in cell culture supernatants was measured during the first 24 h using the Griess test; cellular NO was marked with the fluorescent marker DAF-FM, DA (3-amino, 4-aminomethyl-2',7'-difluorescein; diacetate) and measured by fluorescence microscopy from 1 to 4 h after treatment. eNOS and iNOS mRNA expression levels were measured by quantitative RT-PCR during the first 24 h after treatment. CGRP-induced NO production in the supernatants was high between 1 to 12 h, while cellular NO was highest between 1 to 2 h after treatment and returned to basal levels by 3 h. Both in MG-63 cells and MOBs, the most effective CGRP concentration was 10 nM with a peak time of 1 h. CGRP-induced NO production decreased when eNOS activity was inhibited or when voltage-dependent L-type Ca2+ channels were blocked at 4 h. CGRP was not able to induce changes in iNOS or eNOS mRNA levels and had no effect on the cytokine-induced increase of iNOS expression. Our results suggest that CGRP transiently induces NO production in osteoblasts by elevating intracellular Ca2+ to stimulate the activity of eNOS in vitro.     

Pharmacologic study of C-terminal fragments of frog skin calcitonin gene-related peptide

The calcitonin gene-related peptide from the skin of the frog Phyllomedusa bicolor (pbCGRP) is a 37-residue neuropeptide that differs from human alpha CGRP (halphaCGRP) at 16 positions. The affinities of the C-terminal fragments of pbCGRP and halphaCGRP were evaluated in SK-N-MC cells: pbCGRP(8-37) (K(i)=0.2nM) and pbCGRP(27-37) (K(i)=95nM) were, respectively, 3 times and 20 times more potent than the human fragments halphaCGRP(8-37) and halphaCGRP(27-37). Their antagonistic potencies were measured in SK-N-MC and Col 29 cells, and the rat vas deferens. pbCGRP(8-37) inhibited the halphaCGRP-stimulated production of cAMP by SK-N-MC and Col 29 cells 3 to 4 times more strongly than halphaCGRP(8-37). Thus pbCGRP(8-37) is the most potent CGRP-1 competitive antagonist of all the natural sequences reported to date. pbCGRP(27-37) was also as potent as [D(31), A(34), F(35)] halphaCGRP(27-37), a prototypic antagonist analog derived from structure-activity relationship studies of halphaCGRP(8-37).     

Stimulation of calcitonin secretion in the pig by calcitonin gene-related peptide

Pig thyroid glands were surgically isolated in situ and perfused with autologous blood to which was added known concentrations of calcitonin gene-related peptide (αCGRP). When thyroids were perfused with measured concentrations of CGRP within the range of 0.6–600 nM, the secretion rate of calcitonin (CT) was stimulated while the release of T₃, T₄, and somatostatin remained unchanged. Specific binding of ¹²⁵I-CGRP to pig thyroid plasma membranes was demonstrated, and binding was inhibited by unlabelled CGRP but not by CT or by other peptides unrelated structurally to CGRP. The findings indicate that the pig thyroid gland contains plasma membrane binding sites for CGRP and that CGRP is capable of stimulating the secretion of CT.     

降钙素基因相关肽的新近研究进展

降钙素基因相关肽（CGRP）是存在于感觉神经末梢的一种神经肽,是具有代表性的一种活性多肽。实验证明CGRP在身体许多组织器官起着重要的调节作用,特别是对脑具有很强的血管扩张、逆转血管痉挛、改善脑血液循环的作用。对肠道免疫功能也有调节作用,同时介导神经免疫系统的相互调节。     

Reversal of isoprenaline-induced cardiac remodeling by rutaecarpine via stimulation of calcitonin gene-related peptide production

Dysfunction of capsaicin-sensitive sensory nerves is involved in cardiac remodeling, and rutaecarpine has been shown to exert a beneficial effect on cardiac function through activating the sensory nerves. This study was conducted to explore the potential inhibitory effect of rutaecarpine on cardiac remodeling and the underlying mechanisms. A rat cardiac remodeling model was established by injection of isoprenaline (5 mg/kg per day, s.c.) for 10 days. Rutaecarpine (10 or 40 mg/kg, i.g.) was coadministrated with isoprenaline to evaluate the effect of rutaecarpine on cardiac remodeling. After echocardiographic analysis was performed, blood samples were collected to quantify calcitonin gene-related peptide (CGRP), dorsal root ganglia were isolated for examining CGRP mRNA expression, and the hearts were weighed and saved for evaluating the parameters related to apoptosis and hypertrophy. Isoprenaline significantly increased the ratio of left ventricle weight to body weight, the cross-sectional area of cardiomyocytes, cardiac apoptosis, and collagen deposition concomitantly with decreased CGRP production, which were reversed by rutaecarpine treatment. The beneficial effects of rutaecarpine were attenuated by pretreatment with capsaicin, which selectively depleted CGRP. These results suggest that rutaecarpine was able to reverse isoprenaline-induced cardiac remodeling through stimulating CGRP production.     

Release of calcitonin gene-related peptide in the pig nasal mucosa by antidromic nerve stimulation and capsaicin

The overflow of calcitonin gene-related peptide like-immunoreactivity (CGRP-LI) in the nasal venous effluent upon antidromic stimulation of the maxillary division of the trigeminal nerve with 6.9 Hz for 3 min or upon capsaicin (0.3 mumol bolus injection) were analysed in the nasal mucosa of sympathectomized pentobarbital anaesthetized pigs. The overflow of CGRP-LI upon antidromic stimulation displayed a slower appearance in the venous effluent than the overflow upon bolus injection of capsaicin. The vascular effects as revealed by the arterial blood flow, the venous blood flow, the blood volume of the nasal mucosa, i.e., the filling of the capacitance vessels and the superficial mucosal blood flow as revealed by the laser-Doppler signal were also studied. Antidromic stimulation of the trigeminal nerve as well as capsaicin bolus injection induced a marked vasodilation which was parallel to the overflow of CGRP. However, capsaicin bolus injection also resulted in a marked increase in the mean arterial blood pressure which may be due to reflex activation of sympathetic fibers. In conclusion, we have demonstrated that chemical stimulation with capsaicin as well as antidromic stimulation of nasal sensory nerves in sympathectomized animals induces both vasodilation and overflow of CGRP-LI in vivo. This indicates that CGRP may contribute to the sensory regulation of the microcirculation in the nasal mucosa.     

Ontogeny of calcitonin gene-related peptide and calcitonin in the rat thyroid

In this immunohistochemical study, the ontogenic development of calcitonin-gene-related peptide (CGRP) in the rat thyroid was investigated and compared with that of calcitonin using the indirect-immunofluorescence method. Parafollicular cells with immunoreactivity to both CGRP and calcitonin first appeared at an early stage of gestation (days 17 and 18) in the central portion of the thyroid. Cells immunoreactive to CGRP and calcitonin had became numerous by gestational day 22. After postnatal day 7, CGRP- and calcitonin-immunoreactive (C-IR) cells increased rapidly both in number and in the intensity of their fluorescence. In 14- to 90-day old rats, many intensely immunoreactive cells were distributed in the central portion of the thyroid. The cells immunoreactive to CGRP and to calcitonin had an almost identical ontogenic appearance. In 14-day-old and adult rats, C-IR cells also exhibited CGRP immunostaining, suggesting that these cells simultaneously produce and store CGRP during ontogeny.     

Ontogeny of calcitonin gene-related peptide and calcitonin in the rat thyroid

Summary In this immunohistochemical study, the ontogenic development of calcitonin-gene-related peptide (CGRP) in the rat thyroid was investigated and compared with that of calcitonin using the indirect-immunofluorescence method. Parafollicular cells with immunoreactivity to both CGRP and calcitonin first appeared at an early stage of gestation (days 17 and 18) in the central portion of the thyroid. Cells immunoreactive to CGRP and calcitonin had became numerous by gestational day 22. After postnatal day 7, CGRP- and calcitonin-immunoreactive (CIR) cells increased rapidly both in number and in the intensity of their fluorescence. In 14- to 90-day old rats, many intensely immunoreactive cells were distributed in the central portion of the thyroid. The cells immunoreactive to CGRP and to calcitonin had an almost identical ontogenic appearance. In 14-day-old and adult rats, C-IR cells also exhibited CGRP immunostaining, suggesting that these cells simultaneously produce and store CGRP during ontogeny.     

实验性结肠炎对脊髓传入神经元中降钙素基因相关肽和香草酸受体1表达的调节

本文旨在探讨肠道局部炎症对脊髓肠道感觉传入神经通路的近期及远期效应,应用三硝基苯磺酸(trinitrobenzenesulfonic acid,TNBS)建立大鼠结肠炎动物模型,用DiI(3)逆行神经标记法识别支配肠道炎症部位的脊髓背根神经节(dorsalrootganglia,DRG)神经元,通过肉眼观察、平均组织损伤评分及髓过氧化物酶活性测定等方法评价肠道组织的炎症反应状态,用免疫组织化学法测定香草酸受体l(vanilloid receptor 1,VRl)和降钙素基因相关肽(calcitonin gene-related peptide,CGRP)在支配结肠炎症部位的DRG神经元中的表达,比较炎症不同阶段(给予TNBS后7、21、42 d)CGRP和VRI阳性神经元的数目.结果显示,炎症急性期(即给予TNBS后7 d)结肠黏膜肉眼可见明显损伤,同时相应DRG中表达CGRP及VRl的神经元增加近2倍[(95.38±9.45)%VS(42.86±5.02)%,(89.23±8.21)%VS(32.54±4.58)%].给予TNBS后21、42 d,肠道炎症反应已完全消退,但表达CGRP及VRl的DRG神经元数目仍明显高于对照组[(86.25±8.21)%,(68.28±7.12)%VS(42.86±5.02)%;(67.22±6.52)%,(56.25±4.86)%VS(32.54±4.58)%].结果提示,肠道局部炎症可以上调支配肠道的脊髓传入神经元中CGRP和VRl的表达,这种异常表达可以持续至肠道炎症反应消退后的一定时间.     

Localization of calcitonin and calcitonin gene-related peptide mRNAs in rat parafollicular cells by hybridocytochemistry

By use of appropriate fragments of CT DNA or a CGRP DNA and SP6 polymerase system, we produced anti-sense RNA probes labeled with biotinylated 11-UTP. The labeling and specificity of the RNA probes were confirmed using dot-blot hybridization. By use of hybridocytochemistry, CT mRNA and CGRP mRNA were localized in all parafollicular cells in control and dihydrotachysterin-pre-treated rats. We concluded that all parafollicular cells simultaneously produce both CT mRNA and CGRP mRNA, either under control conditions or after stimulation by dihydrotachysterin-induced hypercalcemia.     

Local pharmacological preconditioning increases the survival of experimental skin flaps in rats

Skin flap survival is dependent on an adequate blood supply and on the resistance to ischemia. Experimentally we tested the effect of pharmacological preconditioning on the survival of skin flaps. The survival of an ischemic skin flap (McFarlane flap) was tested using the local application of cobalt gel in three groups of Wistar rats. The mean flap necrosis of the control group was 59.15%. The rats treated by the cobalt gel once a week showed mean necrosis in 39.09%; the rats receiving the application of the cobalt gel three times a week in 26.33%. The treated groups presented with significantly lower flap necrosis in comparison to the untreated controls. There was a significant difference in the flap necrosis occurrence according to the application frequency of the cobalt gel. The expression of the genes involved in angiogenetic processes encoding vascular endothelial growth factor (VEGF) and glycolytic enzymes was influenced in a non-mitochondrial way in this study. The results show that non-mitochondrial preconditioning could prolong the survival of an ischemic flap.     

Colocalization of protein kinase C beta-subtype and calcitonin gene-related peptide in rat spinal cord.

Colocalization of calcitonin gene-related peptide (CGRP) and protein kinase C beta-subtype (PKC-beta) like immunoreactivities (LI) and the subcellular localization of CGRP-LI were studied in the ventral horn of rat spinal cord. Ultrastructurally CGRP-LI was localized on the membranes of the Golgi-complexes, in multivesicular bodies and in vesicles adjacent to the Golgi-complex in motoneuron perikarya. The colocalization of PKC-beta and CGRP-LI was detected in most of the ventral horn motoneurons. However, few motoneurons were only PKC-beta-immunoreactive. These results suggest that PKC-beta may be involved in the regulation of CGRP release from motoric axon terminals.     

Stimulation of cerebral acetylcholinesterase activity by calcitonin: a possible mediation by 5-hydroxytryptamine

The stimulatory effect of calcitonin on cerebral acetylcholinesterase activity could not be observed in rats pretreated with p-chlorophenylalanine. The results suggest that the response of the enzyme activity to calcitonin is 5-hydroxytryptamine-mediated.     

Hemodynamic action of calcitonin gene-related peptide in the isolated rat heart

The effects of calcitonin gene-related peptide (CGRP) on heart rate, coronary flow, pressure development, and time to ischemic contracture were studied in the isolated, perfused rat heart. A bolus of CGRP (2640 pmols) caused significant increases in heart rate and coronary flow; these effects were sustained for at least five minutes after injection. The increase in coronary flow was independent of heart rate, since CGRP caused an increase in coronary flow in non-beating (potassium-arrested) hearts. The dose-response of CGRP was studied using five doses (65, 218, 658, 1320 and 2640 pmols) given as bolus injections. Although the increase in heart rate was apparently dose-dependent, significant increases above baseline were observed only with the two highest doses. In contrast, coronary flow increased significantly above baseline with the injection of all but the lowest dose of CGRP. Ten minutes after injection of CGRP, all hearts were made ischemic. The time to onset of ischemic contracture was approximately 11 minutes for those hearts that received 65 pmols of CGRP; however, for those hearts receiving all other doses of CGRP, the time to onset of contracture was approximately 8 minutes. We conclude that CGRP significantly decreases the resistance of the coronary vascular bed, and that it may be an important regulator of regional blood flow in the heart.     

Insulin and glucagon secretion in rats: effects of calcitonin gene-related peptide

Immunoreactive calcitonin gene-related peptide (CGRP) has been shown to occur in intrapancreatic nerves and islet somatostatin cells in the rat. Therefore, we investigated the effects of CGRP on insulin and glucagon secretion in the rat. CGRP was infused i.v. at one of 3 dose levels (4.3, 17 or 68 pmol/min). Infusion of CGRP alone was found to elevate basal plasma levels of both insulin and glucagon. In contrast, CGRP impaired the plasma insulin responses to both glucose (7 mg/min; P less than 0.001) and arginine (8.5 mg/min; P less than 0.001), and inhibited the arginine-induced increase in plasma glucagon concentrations (P less than 0.001). Since CGRP and somatostatin are colocalized within the D-cells, we also infused CGRP and somatostatin together at equimolar dose levels (17 pmol/min), with glucose (7 mg/min). By that, the increase in plasma insulin concentrations decreased more rapidly than during infusion of either peptide alone. Since alpha 2-adrenoceptor activation is known to inhibit glucose-stimulated insulin secretion, we also infused CGRP together with the specific alpha 2-adrenoceptor antagonist yohimbine (37 nmol/min). In that way, the plasma insulin-lowering effect of CGRP was prevented. We have shown in the rat: (1) that CGRP stimulates basal insulin and glucagon secretion; (2) that CGRP inhibits stimulated insulin and glucagon secretion; (3) that CGRP and somatostatin more rapidly induce a potent inhibitory action on glucose-stimulated insulin secretion when given together; and (4) that the alpha 2-adrenoceptor antagonist, yohimbine, counteracts the inhibitory action of CGRP on glucose-stimulated insulin secretion. We suggest that CGRP is of importance for the regulation of insulin and glucagon secretion in the rat. The mechanisms behind the islet effects of CGRP can not be established by the present results, though they apparently require intact alpha 2-adrenoceptors.     

The pig as an experimental animal in plastic surgery research for the study of skin flaps, myocutaneous flaps and fasciocutaneous flaps

The pig serves as an excellent model of skin flap research. Many flap types are available and flap designs can be modified easily for specific experimental requirements. Swine are large enough to permit multiple flaps and the skin color allows subjective observations of tissue circulation.     

Regulation of the cell-specific calcitonin/calcitonin gene-related peptide enhancer by USF and the Foxa2 forkhead protein

An 18-bp enhancer controls cell-specific expression of the calcitonin/calcitonin gene-related peptide gene. The enhancer is bound by a heterodimer of the bHLH-Zip protein USF-1 and -2 and a cell-specific factor from thyroid C cell lines. In this report we have identified the cell-specific factor as the forkhead protein Foxa2 (previously HNF-3beta). Binding of Foxa2 to the 18-bp enhancer was demonstrated using electrophoretic mobility shift assays. The cell-specific DNA-protein complex was selectively competed by a series of Foxa2 DNA binding sites, and the addition of Foxa2 antiserum supershifted the complex. Likewise, a complex similar to that seen with extracts from thyroid C cell lines was generated using an extract from heterologous cells expressing recombinant Foxa2. Interestingly, overexpression of Foxa2 activated the 18-bp enhancer in heterologous cells but only in the presence of the adjacent helix-loop-helix motif. Likewise, coexpression of USF proteins with Foxa2 yielded greater activation than by Foxa2 alone. Unexpectedly, Foxa2 overexpression repressed activity in the CA77 thyroid C cell line, suggesting that Foxa2 may interact with additional cofactors. The stimulatory role of Foxa2 at the calcitonin/calcitonin gene-related peptide gene enhancer was confirmed by short interfering RNA-mediated knockdown of Foxa2. As seen with Foxa2 overexpression, the effect of Foxa2 knockdown also required the adjacent helix-loop-helix motif. These results provide the first evidence for combinatorial control of gene expression by bHLH-Zip and forkhead proteins.     

Suppression of insulin-stimulated glucose transport in L6 myocytes by calcitonin gene-related peptide

The binding of calcitonin gene-related peptide (CGRP) to L6 myocytes, the coupling of this receptor to adenylyl cyclase and the resultant effects on insulin-stimulated 2-deoxyglucose uptake were examined. L6 cells express specific binding sites for CGRP. Binding of human [125I]CGRP was inhibited by rat CGRP with an IC50 of approximately 10(-9) M. Synthetic human calcitonin at concentrations up to 10(-6) M had no effect on the binding of CGRP, suggesting that L6 cells express CGRP receptors, rather than calcitonin receptors which are also capable of binding CGRP. The CGRP receptor appeared to be coupled to adenylyl cyclase. Concentrations of CGRP greater than 3 x 10(-9) M increased the cellular content of cAMP. At 3 x 10(-8) M, CGRP increased cAMP 500-fold. CGRP at 10(-10) M and above suppressed the stimulation of 2-deoxyglucose uptake by insulin. Acute incubation of L6 cells with insulin stimulated 2-deoxyglucose uptake 1.6-fold, which was inhibited up to 70% by CGRP. Our results demonstrate that the specific binding of CGRP to L6 cells causes large increase in the cellular content of cAMP - and inhibition of insulin-stimulated 2-deoxyglucose uptake, but the differences in the dose-response curves suggest that the suppression of insulin action by CGRP cannot be solely explained by the increase in cAMP.