Kandolf-Sekulovic Lidija, Kataranovski Milena, Pavlovic Milos D
Department of Dermatology and Institute for Medical Research, Military Medical Academy, Belgrade, Serbia and Montenegro.
Photodermatol Photoimmunol Photomed. 2003 Aug;19(4):203-12. doi: 10.1034/j.1600-0781.2003.00040.x.
BACKGROUND/PURPOSE: Contact hypersensitivity (CHS) reaction is a useful model for studying the skin immune system and inflammatory reactions in the skin. In this study, an experimental model of CHS reaction was employed to assess immunomodulatory effects of near-infrared (near-IR) low-intensity laser (LIL) irradiation, which is used as adjuvant therapy in dermatology, physical medicine, rheumatology, etc., because of its declared anti-inflammatory, biostimulative and analgesic effects.
The effects of near-IR LIL irradiation (lambda=904 nm, irradiance 60 mW/cm2, fluence 3.6 J/cm2) on CHS reaction to 1-chloro-2,4-dinitrochlorobenzene (DNCB) in Albino Oxford rats were examined by irradiating experimental groups of animals before the induction phase of CHS reaction, while nonirradiated animals and animals that received vehicle instead of hapten served as controls. Ear-swelling assay, histopathological examination of H&E preparations of ear skin, computer-assisted image analysis of dermal infiltrate, ear skin organ culture with the determination of cutaneous production of tumour necrosis factor-alpha (by ELISA assay) and nitric oxide (by Griess' assay) were used for measuring the effects of LIL in the elicitation phase of CHS reaction. Cellularity, dendritic cell content, flow cytometry and proliferation assays (spontaneous and in the presence of IL-2 and concanavalin A) of the draining lymph node cells (DLNC) were performed for the assessment of LIL irradiation effects in the induction phase.
In the irradiated group of animals, ear swelling was significantly diminished compared to control animals (101+/-11.5% vs. 58+/-11.6%, P<0.01). This was accompanied by a highly significant decrease in the density of dermal infiltrate (22+/-0.81 vs. 14.2+/-1.75 cells per unit area, P<0.01) and a significant decrease in nitrite levels in the medium conditioned by organ-cultured ear skin (17.63+/-1.91 vs. 3.16+/-1.69 microM NaNO2; P<0.01), while TNF-alpha concentration was not changed. Cellularity and dendritic cell content in DLNC population, as well as the expression of TCR-alpha, CD4, CD8 and CD25, were not changed between irradiated and nonirradiated animals. Proliferation rates of DLNC cultured for 72 h were significantly lower in irradiated animals (17.3+/-4.1 vs. 13.9+/-0.9 x 103 c.p.m.; P<0.01). In cultures of DLNC with added rIL-2 or 0.5 microg/ml of concanavalin A, proliferation rates were also significantly decreased in irradiated animals (34.7+/-3.5 vs. 31.2+/-2. c.p.m. in IL-2-supplemented culture, P<0.01; 70.9+/-6.4 vs. 58.3+/-9.1 x 103 c.p.m. in concanavalin A-supplemented culture, P<0.01). However, this effect was overcome in the presence of the higher concentration of concanavalin A (2.5 microg/ml) (nonirradiated 38.7+/-3.1, irradiated 123.1+/-7.3 x 103 c.p.m., P<0.01).
LIL irradiation showed a systemic immunomodulatory effect on CHS reaction to DNCB in rats. Decreased ear swelling observed in the elicitation phase was associated with diminished proliferative responses of the DLNC in the induction phase of CHS reaction. Further experimental work is needed to examine the possible mechanisms of these effects.
背景/目的:接触性超敏反应(CHS)是研究皮肤免疫系统和皮肤炎症反应的有用模型。在本研究中,采用CHS反应实验模型来评估近红外(near-IR)低强度激光(LIL)照射的免疫调节作用。由于其宣称具有抗炎、生物刺激和镇痛作用,LIL照射在皮肤科、物理医学、风湿病学等领域用作辅助治疗。
通过在CHS反应诱导期之前照射实验组动物,研究近红外LIL照射(波长=904nm,辐照度60mW/cm²,能量密度3.6J/cm²)对白化牛津大鼠接触1-氯-2,4-二硝基氯苯(DNCB)的CHS反应的影响,未照射动物和接受赋形剂而非半抗原的动物作为对照。采用耳肿胀试验、耳皮肤苏木精-伊红(H&E)染色切片的组织病理学检查、真皮浸润的计算机辅助图像分析、耳皮肤器官培养并通过酶联免疫吸附测定法(ELISA)测定肿瘤坏死因子-α的皮肤产生量以及通过格里斯(Griess)测定法测定一氧化氮含量,来测量LIL在CHS反应激发期的作用。对引流淋巴结细胞(DLNC)进行细胞计数、树突状细胞含量测定、流式细胞术和增殖试验(自发增殖以及在白细胞介素-2(IL-2)和伴刀豆球蛋白A存在下的增殖),以评估LIL照射在诱导期的作用。
与对照动物相比,照射组动物的耳肿胀明显减轻(101±11.5%对58±11.6%,P<0.01)。这伴随着真皮浸润密度的显著降低(每单位面积22±0.81对14.2±1.75个细胞,P<0.01)以及器官培养耳皮肤条件培养基中亚硝酸盐水平的显著降低(17.63±1.91对3.16±1.69μM NaNO₂;P<0.01),而肿瘤坏死因子-α浓度未改变。照射组和未照射组动物之间,DLNC群体中的细胞计数、树突状细胞含量以及TCR-α、CD4、CD8和CD25的表达均未改变。照射动物中培养72小时的DLNC增殖率显著降低(17.3±4.1对13.9±0.9×10³ 计数/分钟;P<0.01)。在添加重组IL-2或0.5μg/ml伴刀豆球蛋白A的DLNC培养物中,照射动物的增殖率也显著降低(在添加IL-2的培养物中为34.7±3.5对31.2±2计数/分钟,P<0.01;在添加伴刀豆球蛋白A的培养物中为70.9±6.4对58.3±9.1×10³ 计数/分钟,P<0.01)。然而,在较高浓度伴刀豆球蛋白A(2.5μg/ml)存在时,这种作用被克服(未照射组为38.7±3.1,照射组为123.1±7.3×10³ 计数/分钟,P<0.01)。
LIL照射对大鼠接触DNCB的CHS反应具有全身免疫调节作用。在激发期观察到的耳肿胀减轻与CHS反应诱导期DLNC增殖反应减弱有关。需要进一步的实验工作来研究这些作用的可能机制。
