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1.
几种肥大细胞染色方法的比较   总被引:1,自引:0,他引:1  
运用ABC—爱先蓝—PAS混合染色及PAP技术对大鼠肝、胃、肠及DAB诱发的大鼠肝癌中肥大细胞进行了染色对比实验,结果表明:Carnoy及福尔马林等固定液固定的组织内肥大细胞均能被爱先蓝染色成蓝色,其染色时间不同,该种染色方法可作为一种常规的染色方法,用于确定肥大细胞在组织中的分布及数量。ABC—爱先蓝—PAS混合染色方法及PAP技术均能准确、有效地确定肥大细胞(MC)性质。ABC—爱先蓝—PAS混合染色使结缔组织肥大细胞(CTMC)呈棕褐色,周边略蓝色。粘膜肥大细胞(MMC)则呈蓝色,通过不同颜色的显示,可清楚地将CTMC与MMC区分开来。PAP方法具更高的特异性。但有关的抗体来源缺乏,因此在无特异Ⅰ抗体的情况下,ABC—爱先蓝—PAS混合染色方法亦可视为鉴别两类不同性质MC的一种较为理想的方法。  相似文献   

2.
大鼠睾丸肥大细胞的发育和增龄性变化   总被引:4,自引:0,他引:4  
用组织化学和形态计量学等方法研究正常大鼠生后到老年睾丸肥大细胞的类型及数量的变化。结果表明,正常大鼠睾丸肥大细胞30天开始出现,位于白膜或白膜下,随年龄增加其数量逐渐增多,老年鼠(18~24月)增多较为明显,其面数密度、数密度及总数与幼年(30~45天)或成年(3~6月)鼠比较均有高度显著性(P<0.01)。睾丸肥大细胞(直径约10μm)较结缔组织肥大细胞(直径15~18μm)小,异染颗粒少,Alcianblue/SafraninO染色时呈蓝染型或蓝染为主的间染型,硫酸小檗碱染色呈中等强度的黄色荧光。  相似文献   

3.
徐珞  唐明  陶尚敏 《动物学报》2000,46(4):416-421
采用核团微量注射、放射免疫分析及荧光分光测定等实验方法,探讨了大鼠癫痫发作过程中胆囊收缩素-8、β-内啡肽和多巴胺的相互关系及作用。结果表明:(1)海马内注射胆囊收缩素-8,大鼠癫痫发作作用显减轻;海马内注射L-365和胆囊收缩素-8,胆囊收缩素-8压抑癫痫发作的作用消失;(2)癫痫发作后海马内β-内啡肽含量显著降低而胆囊收缩素-8含量显著增加;(3)大鼠海马内注射胆囊收缩素-8,海马内β-内啡肽  相似文献   

4.
虎纹蛙消化道肥大细胞类胰蛋白酶免疫组化研究   总被引:1,自引:0,他引:1  
研究采用小鼠抗人肥大细胞类胰蛋白酶单克隆抗体AA1,应用ElivisionTM plus免疫组化染色法对虎纹蛙(Rana tigrina rugulosa)消化道组织中类胰蛋白酶阳性肥大细胞存在的可能性进行研究。研究发现单克隆抗体AAl可与中性缓冲福马林液固定的虎纹蛙组织的肥大细胞获得良好的交叉反应,类胰蛋白酶阳性细胞胞浆染成棕黄色,证实虎纹蛙肥大细胞胞浆颗粒中也存在类胰蛋白酶。虎纹蛙组织中AA1免疫染色阳性细胞的分布,与AB/SO和改良甲苯胺兰染色阳性细胞的分布存在较大的差异:虎纹蛙类胰蛋白酶阳性细胞数量很少,且阳性反应比人胃癌间质肥大细胞弱,主要见于黏膜型肥大细胞(MMC)分布区域,如消化道黏膜上皮下方和固有层,少量分布于肠绒毛基底部及食管腺和胃腺周围。而在结缔组织型肥大细胞(CTMC)分布区域,如消化道黏膜下层结缔组织中却未见类胰蛋白酶阳性细胞。AB/SO和改良甲苯胺兰染色阳性细胞数量多,广泛分布于消化道黏膜固有层、黏膜下层、腺体之间、肌间及外膜结缔组织,说明并不是所有的虎纹蛙肥大细胞都含有类胰蛋白酶。很有可能是虎纹蛙MMC中含有类胰蛋白酶,而CTMC中不含类胰蛋白酶。虎纹蛙类胰蛋白酶阳性细胞数量很少,且阳性反应比人胃癌间质肥大细胞弱,说明虎纹蛙肥大细胞胞浆颗粒类胰蛋白酶含量较少,虎纹蛙属于低等脊椎动物,可能与生物进化水平较低有关,有待进一步研究。  相似文献   

5.
研究肥大细胞在人胎儿甲状腺发育中数量、分布及组化性质的改变,以探讨胎儿器官发育中肥大细胞的差异。取45例不同胎龄的人胎甲状腺石蜡切片做甲苯胺蓝染色和阿尔辛蓝--藏红染色,并测定肥大细胞的临界电解质浓度值及进行硫酸小蘖硷荧光染色。结果显示:3月龄胎儿甲状腺内开始出现肥大细胞,数量极少,主要分布在被膜及小叶间结缔组织内,甲苯胺蓝染色肥大细胞颗粒呈淡紫蓝色,阿尔辛蓝--藏红染色呈蓝色,临界电解质浓度值较低,硫酸小蘖硷染色未见显黄色荧乐的肥大细胞,从3月龄到足月随着胎龄增长,肥大细胞数量缓慢增多,8月龄时肥大细胞经甲苯胺蓝染色,其颗粒呈紫红色,阿尔辛蓝--藏红染色出现少量含红色和红蓝混合染色颗粒的肥大细胞,临界电解质浓度值偏高,可见少量显黄色荧光的肥大细胞,结果表明:在人胎儿3月龄时甲状腺发育中开始出现肥大细胞,但随胎儿发育肥大细胞的组化性质改变不明显。  相似文献   

6.
上皮组织增生与肥大细胞变化的形态学研究   总被引:1,自引:0,他引:1  
C-1号小鼠40只,随机分为4组,每组10只,用食醋抹小鼠右耳皮肤,每日一次,以左耳作对照。在实验后第10、30、90、140天各处死一组,取耳廓组织,常规石蜡制片,进行HE染色及肥大细胞染色,光镜下观察。结果发现:实验组140天皮肤上皮组织明显的增生,结缔组织内肥大细胞(MC)的数量比对照组显著增多(P<0.01)。在AB-S染色时,实验组MC由藏红阳性为主逐渐转变成以Alcian蓝阳性为主,而对照组各时期MC均呈藏红阳性。实验组与对照组皮肤MC的临界电解质浓度分别为0.95M,0.97M。硫酸小蘖碱荧光染色均呈强黄色萤光反应。结果提示:①上皮组织增生可致结缔组织内MC数量增多,②增多的MC的组化性质发生了变化,③MC可参与上皮组织的增殖,MC与上皮细胞间具有相互促进作用  相似文献   

7.
目的研究骨内局部单次注射小剂量辛伐他汀对大鼠心梗后血管新生和心功能的影响。方法Wistar大鼠随机分为假手术组、心肌梗死模型组和骨内注射辛伐他汀组(n=12)。冠状动脉左前降支结扎建立大鼠心肌梗死模型。24 h后实验组左胫骨内单次注射辛伐他汀0.5 mg,4周后分别通过小动物超声心动图评价左室功能,三苯基氯化四氮唑(TTC)染色计算心肌梗死面积,免疫荧光染色检测局部血管新生情况。结果超声心动图结果表明心肌梗死4周后左心室收缩功能明显下降,骨内注射辛伐他汀对大鼠心肌梗死后左心室功能未见明显改善;TTC染色发现骨内注射辛伐他汀组心肌梗死面积未见明显减少;免疫荧光染色显示,骨内注射辛伐他汀组心肌血管密度没有显著增加。结论大鼠心梗24 h后骨内单次注射小剂量辛伐他汀(0.5 mg),心肌梗死面积、血管新生及心脏功能无显著改善。  相似文献   

8.
动情周期中大鼠子宫和输卵管壁肥大细胞数量变化的研究   总被引:8,自引:2,他引:6  
用放射免疫分析法对动情周期中大鼠血清雌二醇浓度进行检测;取子宫、输卵管常规石蜡切片、H-E染色,并用甲苯胺蓝染色显示肥大细胞,于光镜低倍视野下计数。结果显示:动物血清雌二醇浓度依次为:动情期(E)组>动情前期(PE)组>动情后期(ME)组>动情间(DE)且,各组间差异均有显性;在子宫,肥大细胞分布于宫壁肌怪平滑肌束间的结缔组织内、近小血管处,以微血管周居多,常见单个散在,于ME子宫内膜尚偶见肥大细胞;输卵管肥大细胞局限于其外膜层内、近小血管周围,亦多散在。子宫、输卵管壁内的肥大细胞镜下呈圆形、椭圆形或略不规则形,胞浆内充满紫红色粗大颗粒,子宫肥大细胞数量依次为:ME>DE>PE>E,各组间差异有生(DE与PE、PE与E,P<0.05,余组间P<0.01);输卵管壁内肥大细胞数量各组间差异无显性(P>0.05)。本尚对大鼠血清雌二醇水平波动与子宫、输卵管壁内肥大细胞数量变化的关系及其生理意义进行了讨论。  相似文献   

9.
目的:探讨大鼠中脑导水管周围灰质(PAG)内NO在应激性高血压(SIH)发病中的作用。方法:采用电击足底结合噪声建立应激性高血压大鼠模型,NADPH-d组化方法显示PAG内一氧化氮合酶(NOS)阳性神经元的变化,核团微注法和放免法检测PAG内微量注射L-NNA对动物血压和延髓头端腹外侧区(RVLM)内Ach含量的影响。结果:(1)应激性高血压大鼠血压升高,PAG背外侧区NOS阳性神经元数量明显减少,平均灰度值增高,且RVLM内Ach含量也增多。(2)PAG内微量注射L-NNA 100mmol/L 0.1μl后,对照组大鼠的平均动脉压(MAP)升高,RVLM内Ach含量增多,而应激性高血压组大鼠MAP的变化显著小于对照组。结论:应激性高血压大鼠PAG内NOS阳性神经元发生的可塑性变化,可能经RVLM内Ach介导,参与了该病的形成。  相似文献   

10.
Yu CX  Wu GC  Xu SF  Chen CH 《生理学报》2000,52(3):263-266
为探讨褪黑素(MEL)镇痛作用的机制,本文采用免疫组化方法结合计算机图像处理技术,观察了注射MEL对大鼠下丘脑弓状核内神经细胞的β-内啡肽免疫反应的影响。实验大鼠分约药组及对照组,分别腹腔注射MEL110mg/kg或配药液,1h后灌注取脑、冰冻切片,进行免疫组化染色,计算机图像处理技术测定染色脑片积分光密度(IOD)和平均光密度(OD)。结果显示,给药组大鼠弓状核内β-内啡肽免疫反应明显减弱,IO  相似文献   

11.
Mast cells may be classified into at least two phenotypically distinct populations: connective tissue-type mast cells (CTMC) and mucosal mast cells (MMC). Mast cells in the peritoneal cavity of mice are typical CTMC, whereas mast cells in the mucosa of the stomach show morphologic characteristics of MMC. We investigated whether CTMC may change to MMC. A single peritoneal mast cell of WBB6F1-+/+ mice was identified under the phase-contrast microscope, picked up with the micromanipulator, and injected into the stomach wall of genetically mast cell-deficient WBB6F1-W/Wv mice. The cells with histochemical and electron microscopical features of MMC developed in the mucosa, and those with histochemical features of CTMC in the muscularis propria. This directly demonstrates that a certain proportion of CTMC may function as a bipotent precursor for both MMC and CTMC.  相似文献   

12.
Mast cells appeared in the liver around metacestodes of Taenia taeniaeformis by 13 days after infection (DAI) of rats. The cells often occurred in clusters. The population increased until 28 DAI, then gradually declined. These hepatic mast cells (HMC) were compared to intestinal mucosal mast cells (MMC) and connective tissue mast cells (CTMC) histochemically, morphologically and in their response in vivo to Compound (built|48/80) and dexamethasone. Hepatic mast cells were similar to MMC in that they stained strongly blue with Astra blue at pH 1·0, could not be demonstrated with 0·005% toluidine blue, disappeared after treatment with dexamethasone, and were unaffected by 48/80. Immunoglobulin-containing cells in the liver were characterized by immunofluorescence. Immunoglobulin E-positive, and to a lesser extent IgG2a-, and IgG2c-positive cells surround the parasites in increasing numbers until 28 DAI, then declined. Many IgE-positive cells were HMC, and the IgE was frequently located intracytoplasmically. These cells were clearly distinguishable from eosinophils which stained characteristically with Giemsa and did not react with the anti-IgE probe. The results suggest that mast cell progenitors may be induced to localize and proliferate at the host-parasite interface in the Taenia-infected livers, giving rise to a cell population comparable to the MMC often seen at parasitized mucosal surfaces.  相似文献   

13.
Rat peritoneal mast cells (RPMC) and rat basophilic leukemia (RBL) cells are representative of connective tissue-type (CTMC) and mucosal-type (MMC) mast cells, respectively. Using polyethylene glycol, we have fused RPMC with 6-thioguanine resistant, HAT (hypoxanthine, aminopterin, thymidine) sensitive RBL-CA10.7 or RBL-CK2 cells, yielding several hybrid rat mast cell lines (HRMC). The hybridomas exhibited different size and cytoplasmic granularity when compared with parental cell lines. Analysis of both high (Fc epsilon RI) and low affinity (Fc epsilon RL) receptors for IgE revealed that the hybrid lines had more variable receptor patterns than the parent lines. Three hybridoma lines were chosen for further study. Differential histochemical staining with alcian blue and safranin O dyes indicated the hybrids to be predominantly of the MMC type: however, a few cells of one of these uncloned hybridomas were found to be of the CTMC type. Attempts to isolate the CTMC hybridomas yielded one culture which was predominantly of the CTMC phenotype and in a number of other cultures, cells were found expressing simultaneously both the CTMC and the MMC phenotype. After 3 weeks in culture, however, all hybridomas, including those which were cloned further, expressed only the MMC histochemical phenotype. This was found to correlate with the presence of rat mast cell protease II (RMCPII) and the absence of RMCPI in all hybridomas, as detected by Western blot analysis. In addition, the histamine content of all cells was significantly lower than that of the parent RPMC. Most hybrid mast cells expressed both Fc epsilon RI and Fc epsilon RL which in some cases exhibited significant variations in the Mr. These results indicate that somatic cell hybrids expressing the MMC and CTMC phenotype can be produced by the fusion of RBL and RPMC. The CTMC phenotype, however, is unstable, and possible reasons for this are discussed.  相似文献   

14.
RX 77368 (RX) increases gastric mucosal blood flow by a vagal cholinergic mechanism. The relative roles of mucosal and connective tissue mast cells (MMC and CTMC) were investigated in RX-injected rats. Blood flow and mast cell degranulation were measured after intracisternal RX. RX significantly increased gastric mucosal blood flow, and sequentially degranulated CTMC and MMC. Ketotifen or doxantrazole inhibited the hyperemic response. Ondansetron, RS-039604-90, or famotidine, but not ketanserin or pyrilamine, reduced hyperemia. Mast cells mediate RX-induced gastric hyperemia via 5-HT3, 5-HT4, and H2 receptors; initial increase depends upon CTMC whereas MMC contributes to the later response.  相似文献   

15.
A variety of mast cell degranulating agents have previously been shown to induce mast cell hyperplasia in adult rats. In neonates 2.5 S nerve growth factor (NGF) induces a hyperplasia of both mucosal and connective tissue mast cells (MMC and CTMC). We have examined the role of the potent mast cell degranulating properties of NGF on its ability to induce mast cell hyperplasia. Administration of NGF in combination with the mast cell stabilizing agent disodium cromoglycate was found to abrogate the CTMC hyperplasia induced by NGF alone. Treatment of neonatal rats with the alternate degranulating agent compound 48/80 was found to induce a limited CTMC but not a MMC hyperplasia. A supernatant obtained by degranulating purified adult rat peritoneal mast cells with anti-IgE was found to induce hyperplasia of the CTMC population similar to that observed with NGF administration. However, this degranulation product supernatant only induced a limited MMC hyperplasia as judged by RMCP II content of the tissues. These results suggest that NGF has dual action inducing mast cell hyperplasia; CTMC hyperplasia being dependent on the ability of NGF to degranulate mast cells. MMC hyperplasia induced by NGF is independent of CTMC degranulation. Degranulation products from peritoneal mast cells act to increase both MMC and CTMC populations in the neonate. These data suggest that the CTMC population may be regulated by an autocrine positive feedback mechanism in vivo.  相似文献   

16.
Summary Mucosal mast cells (MMC) and connective tissue mast cells (CTMC) of the rat contain different proteoglycans, which can be distinguished using histochemical methods. The chondroitin sulphate proteoglycan of the MMC, unlike the heparin of the CTMC, does not show fluorescent berberine binding, is susceptible to aldehyde fixatives and stains preferentially with Alcian Blue in a staining sequence with Safranin. The majority of the dermal mast cells are typical CTMC and are located in the deep part of the dermis. Subepidermal mast cells are comparatively few in normal rats but numerous in athymic rats and mice. These cells differ from other dermal mast cells in that they stain preferentially with Alcian Blue and they appear to contain little histamine. We examined some of the histochemical properties of the skin mast cells of female PVG-rnu/rnu rats and their heterozygous littermates aged from 5 to 29 weeks. The thiazine dye-binding of the subepidermal mast cells was partially blocked by formaldehyde fixation and only about half of them showed a weakly fluorescent berberine binding. The critical electrolyte concentration of the Alcian Blue staining of the subepidermal mast cells was between that of CTMC and MMC. Deaminative cleavage with nitrous acid abolished the staining of all skin mast cells, while that of the MMC was unaffected. There were no statistically significant differences in the staining patterns of the dermal mast cells between different ages or groups of rat. These results indicate that the subepidermal mast cells contain a heparin proteoglycan which is, however, different from that of the typical CTMC of other sites. They thus appear to represent a second example of a mast cell within a defined anatomical location exhibiting a distinct proteoglycan expression.  相似文献   

17.
The proliferative capacity of mouse connective tissue-type mast cells (CTMC) was analyzed by using a newly discovered c-kit ligand, termed stem cell factor (SCF). More than 90% of CTMC in the peritoneal cavity responded to recombinant rat SCF (rrSCF) and were able to give rise to pure mast cell colonies in methylcellulose culture. Serial observation (mapping) of growth of individual CTMC in culture containing rrSCF confirmed their striking proliferative ability. No serum but accessory cells (non-CTMC cells) in the peritoneal population were required for the clonal growth of CTMC induced by rrSCF in our methylcellulose culture of whole peritoneal cells. The rrSCF-induced mast cell colony formation from peritoneal CTMC was completely inhibited by the addition of anti-c-kit antibody, which can block the binding of SCF to c-kit, to the culture. When IL-3 was combined with rrSCF, mast cell colonies dramatically increased in size. Mapping studies revealed that the combination of the two factors augmented the proliferative rate of CTMC. Approximately 60% of the constituent cells of the mast cell colonies which were formed from peritoneal CTMC in the culture containing rrSCF alone were stained with berberine sulfate, which is a characteristic of CTMC. However, most mast cells which were induced by rrSCF+IL-3 from peritoneal CTMC contained berberine(-)-safranin(-)-Alcian blue(+) granules. Although IL-4 exhibited little synergism with rrSCF in the induction of CTMC proliferation, the addition of IL-4 to the culture containing rrSCF+IL-3 resulted in an increase in mast cells which retained CTMC characteristics.  相似文献   

18.
We recently identified two types of mast cell colonies derived from murine peritoneal cells: type 1 and type 2. Type 1 mast cell colonies consisted of berberine sulfate(+)- safranin(+) connective tissue-type mast cells (CTMC) and were derived from mature CTMC in the heaviest fraction obtained by Percoll density gradient centrifugation. In contrast, type 2 mast cell colonies consisted of alcian blue(+)- berberine sulfate(-)- safranin(-) mucosal mast cells (MMC) and were derived from immature progenitors in low density fractions. We replated a total of 60 type 1 and 60 type 2 mast cell colonies and examined their capability for producing secondary colonies. Although all of the primary colonies yielded secondary colonies, the replating efficiencies of individual colonies varied over a wide range. Cumulative distributions of secondary colonies from both type 1 and type 2 primary colonies could be fitted well by gamma distributions obtained by computer simulation. These findings are in agreement with the stochastic model for CTMC- and MMC proliferation. Cytological analyses of secondary colonies from primary type 1 colonies revealed heterogeneous distributions of alcian blue(+)- safranin(-)- berberine sulfate(-) mast cells, suggesting that transdifferentiation from mature CTMC to safranin(-)- berberine sulfate(-) mast cells is also governed by stochastic mechanisms.  相似文献   

19.
Mast cells (MC) can undergo significant changes in number and phenotype; these alterations result in the differential expression of growth factors and cytokines. Kit ligand (KL; stem cell factor) is produced by mesenchymal cells, and in the liver by biliary epithelial cells. Recent studies suggest that KL, and its receptor c-kit, may be involved in liver regeneration after loss of liver mass. However, KL is also the major growth, differentiating, chemotactic, and activating factor for MC. The aim of our study was to elucidate the dynamics and phenotype of hepatic MC and KL/c-kit expression during liver regeneration after partial (70%) hepatectomy in the rat. Regenerating livers were harvested after 1, 3, 7, and 14 days, respectively (n = 6 each day). MC were stained for naphthol-AS/D-chloroacetate esterase and counted as MC per bile ductule. MC phenotype was assessed by rat MC protease (RMCP)-1 and -2 immunofluorescence staining, in order to distinguish RMCP-1 positive connective tissue MC (CTMC) from RMCP-2 positive mucosa MC (MMC). mRNA expression of RMCP, c-kit, and the differentially spliced variants of KL was quantified by RT-PCR. MC counts per bile ductule decreased in regenerating rat liver tissue at day 3, compared with native livers, and became normal thereafter. Hepatic MC were predominantly of a CTMC phenotype expressing RMCP-1, as previously published; after hepatectomy, between 76 and 99% of all MC double-expressed RMCP-1 and -2, compatible with an MMC phenotype. The ratio of the two alternatively spliced mRNAs for KL (KL-1 : KL-2), and c-kit mRNA expression did not differ significantly between regenerating livers and the livers of sham operated animals. These results suggest that hepatic mast cells are restored during liver regeneration after partial hepatectomy in the rat. Restored MC express an MMC phenotype, suggesting migration from outside into the regenerating liver. Alternative splicing of KL is affected by the surgical procedure in general, and, together with its receptor c-kit, doesn't seem to be involved in liver regeneration after partial hepatectomy in the rat. Further functional studies, and studies in regenerating human livers might offer the possibility of elucidating the role of the hepatic mast cell, and its different protease phenotypes during liver regeneration after surgical loss of liver mass.  相似文献   

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