• Journal of Periodontal and Implant Science
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• 제26권3호
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• pp.641-654
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• 1996

In infectious disease, invasion of host tissue by bacteria or their products frequently induces a wide variety of inflammatory and immunopathologic reaction. Evidence indicates that cytokines are involved in the initiation and progression of chronic inflammatory diseases, such as periodontitis. Interleukin-6, which is a multifunctional cytokine, has important roles in acute and chronic inflammation and may also be implicated in bone resorption. Periodontal diseases are characterized by chronic inflammation of the periodontium with alveolar bone resoption. A principal driving force behind this response appears to lie in the immune system's response to bacteria. Many of the cell components which have been shown to function as virulence factors in gram-negative bacteria are associated with the bacterial surface. Of these, lipopolysaccharide has been characterized as one that mediates a number of biological activities which can lead to the destruction of host tissue. Non-steroidal antiinflammatory drug is used for reduce inflammation, and most of NSAIDs inhibit prostaglandine $E_2$ production, but it is shown that $PGE_2$ production is stimulated by IL-1 in recent study. So, the influence of other cytokines except $PGE_2$ on periodontium can not be avoided. Therefore, new antiinflammatory drug is needed. Rhizoma coptidis is used in oriental medicine for anti-inflammation and antiseptics. In this present study, we examined the IL-6 release in periodontal ligament cells treated with the lipopolysaccharide, and also the effect of rhizoma coptidis on cellular activity and IL-6 production of periodontal ligament cells. To evaluate the effect of rhizoma coptidis on cellular activity, the cells were seeded at a cell density of $1{\times}10^4$ cells/well in 24-well culture plates. After one day incubation, 1-6, 10-9 and 10-12 g/ml of rhizoma coptidis and 5, $10{\mu}g/ml$ of LPS were added to the each well and incubated for 1 and 2 days, respectively. Then, MTT assay were carried out. To evaluate the effect of rhizoma coptidis on IL-6 production, the cells were seeded at a cell density of $1.5{\times}10^4$ cells/well in 24-well culture plates. After one day incubation, 10-9 g/ml of rhizoma coptidis and 5, $10{\mu}g/ml$ of LPS were added to the each well and incubated for 3, 6, 12 and 24 hours. Then, amounts of IL-6 production is measured by IL-6 ELISA kit used. The results were as follows : 1. Rhizoma coptidisrbelow to ($10^{-6}g/ml$) significantly increaed cellular activity of periodontal ligament cells than control. 2. Rhizoma coptidist ($10^{-9}g/ml$) significantly increased cellular activity of LPS($5{\mu}g/ml$)-treated periodontal ligament cells than control. 3. LPS(5 and $10{\mu}g/ml$) significantly increased IL-6 production of periodontal ligament cells than control. 4. Rhizoma coptidis($10^{-9}g/ml$) decreased IL-6 production of LPS ($5{\mu}g/ml$)-treated periodontal.ligarnent cells than LPS only tested group. These findings suggest that stimulation of the IL-6 release of periodontal ligament cells by LPS may have a role in the progression of inflammation and alveolar bone resoption in periodontal disease, and that inhibition of the IL-6 release of cells and stimulation of cellular activity by rhizoma coptidis may help the periodontal regeneration.

• 동의생리병리학회지
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• 제19권2호
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• pp.481-489
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• 2005

Lonicerae Flos has antibacterial effects against Staphylococcus aureus, streptococci, pneumococci, Bacillus dysenterii, Salmonella typhi, and paratyphoid. It is an antiviral agent. The herb has a cytoprotective effect against $CCl_{4}-induced$ hepatic injury. It has antilipemic action, interfering with lipid absorption from the gut. Nowadays this herb is used mainly in the treatment of upper respiratory infections, such as tonsillitis and acute laryngitis. It is also used in the treatment of skin suppurations, such as carbuncles, and to treat viral conjunctivitis, influenza, pneumonia, and mastitis. Lonicerae Flos is dried flower buds of Lonicera japonica, L. hypoglauca, L. confusa, or L. dasystyla. But, for the most part, we use whole plant of Lonicera japonica, as a flower bud of it. And, little is known of the original copy of effects of whole plant, except for the 'Bon-Cho-Gang-Mok', which is written the effects of flower of Lonicera japonica are equal to effects of leaves and branch of it. The present study was conducted to evaluate the effect of flower and whole plant of Lonicera japonica on the regulatory mechanism of cytokines, inducible nitric oxide synthase (iNOS) and cyclooxygenase (COX-2) for the immunological activities in Raw 264.7 cells. In Raw 264.7 cells stimulated with lipopolysaccharide (LPS) to mimic inflammation, flower and whole plant of Lonicera japonica water extracts inhibited nitric oxide production in a dose-dependent manner and abrogated iNOS and COX-2. Flower and whole plant of Lonicera japonica water extract did not affect on cell viability. To investigate the mechanism by which flower and whole plant of Lonicera japonica water extract inhibits iNOS and COX-2 gene expression, we examined the on phosphorylation of inhibitor ${\kappa}B{\alpha}$ and assessed production of $TNF-{\alpha}$, $interleukin-1{\beta}$ $(IL-1{\beta})$ and interleukin-6 (IL-6). Results provided evidence that flower and whole plant of Lonicera japonica inhibited the production of $IL-1{\beta}$, IL-6 and activated the phosphorylation of inhibitor ${\kappa}B{\alpha}$ in Raw 264.7 cells activated with LPS. These findings suggest that flower and whole plant of Lonicera japonica can produce anti-inflammatory effect, which may play a role in adjunctive therapy in Gram-negative bacterial infections, respectively.

• Tuberculosis and Respiratory Diseases
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• 제53권5호
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• pp.497-509
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• 2002

연구배경 : 대표적 세포내 감염질환인 결핵에 대한 숙주의 방어기전 및 면역반응은 아직도 정확히 이해되지 못하고 있으며 이러한 병리기전을 연구하기 위하여서는 적절한 감염모델이 필요하다. 전혈 (whole blood)은 체액성 면역과 세포성 면역을 모두 포함한 생체의 상태를 반영하므로 다양한 대상에서 면역상태의 차이에 따른 개체간 결핵균 살균력의 차이를 비교 할 수 있는 적절한 모델로 추정된다. 따라서 본 연구의 목적은 인체의 결핵균 전혈 배양모델을 개발하여 궁극적으로 시험관내에서 숙주면역의 정도를 측정하는 대리 표지자를 개발하고자하는 것이다. 방 법 : PPD 양성 정상인을 대상으로 제대혈, 결핵환자, 당뇨 및 폐암환자와 비교하였다. 전혈을 희석하여 결핵균 Mycobacterium avium과 M. tuberculosis $H_{37}Ra$에 낮은 감염률로 감염시키고 $37^{\circ}C$, 5% $CO_2$ 배양기 속의 회전교반기에서 회전시키면서 배양(rotating culture) 하였다. 배양 1 일, 3일 및 4일 뒤 증류수로 긴장저하용해 시킨 후 Middlebrook 7H10/OADC 평판배지에서 결핵균 집락이 형성될 때까지 3-4주간 $37^{\circ}C$, 5% $CO_2$ 배양기에 배양하여 집락수를 계산하였다. 일부실험에서 TNF-${\alpha}$의 분비능을 90%이상 감소시키 기 위하여 methylpredmsolone과 pentoxifylline을 첨가하여 면역조정을 하였으며, CD4+ T-림프구와 CD8+ T-림프구를 magnetic bead에 코팅된 단클론 항체를 사용하여 제거하였다. 결핵균의 수는 용해질 $m{\ell}$ 당 CFU로 계산하였다. 살균력은 ${\Delta}$ log killing ratio로 표시하였다. ${\Delta}$ logKR=$log_{10}$(Final CFU/Initial CFU). 결 과 : 1. 제대혈의 결핵균 살균력이 PPD 양성 대조군에 비하여 다소 감소된 경향을 보였으며, 결핵환자의 결핵균 살균력은 PPD 양성 대조군과 특별한 차이를 보이지 않았다. 또한 당뇨군과 폐암군의 결핵균 살균력도 정상 대조군에 비하여 특별한 차이를 보이지 않았다. 2. Methylprednisolone과 pentoxyfylline을 사용한 면역조정 시에 제대혈, PPD 양성 정상 대조군과 결핵군 모두에서 전혈에서의 결핵균의 살균력이 감소되는 경향을 보였다. 3. CD4+ 및 CD8+ T-림프구 삭제시 log KR가 증가되어 유의하게 결핵균 살균력이 감소되었으며 CD4+ 및 CD8+ T-림프구 동시 삭제시 현저한 상승효과를 보였고 이러한 결과는 Mycobacterium avium보다는 독력이 없는 균인 Mycobacterium tuberculosis $H_{37}Ra$에서 보다 뚜렷하였다. 4. 폐결핵 치료후의 결핵균 살균력은 치료 전과 비교하여 유의하게 ${\Delta}$ logKR가 감소하였으며, 배양 3-4일에도 현저한 결핵균 증식의 억제를 보였다. 결 론 : 인체의 결핵균에 대한 감수성인 개체간의 면역상태를 전혈에서 결핵균 살균력을 통하여 비교할 수는 없었다. 그러나 인체 전혈 모델은 간단하고 임상경과 관찰이 쉬우며 결핵환자에서 치료 전과 후에 현저한 결핵균 살균력의 차이를 보이므로, 최근 결핵연구의 가장 중요한 과제의 하나인 백신 개발에서 그 성과를 판단하는 vaccine trial에 이용할 수 있을 가능성을 시사한다.