Oxidative Damage to Macromolecules in Atopic Dermatitis Patients / 대한피부과학회지

BACKGROUND: Excessive exposure to reactive oxygen species (ROS) or decreased antioxidants leads to damage of proteins, lipids, and DNA. Previous studies suggest that oxidative stress may be important in the pathogenesis of atopic dermatitis. OBJECTIVE: To investigate whether oxidative stress is increased in atopic dermatitis patients compared to a normal control group, we examined DNA damage, lipid peroxidation, ROS production and antioxidant expression. METHODS: Patients with atopic dermatitis (n=16; mean Scoring Atopic Dermatitis [SCORAD] index=53.06) were investigated compared to a normal control group (n=25). To examine DNA damage in the cellular level, we performed comet assays on lymphocytes and granulocytes taken from patients and control group. To measure lipid peroxidation products, urine and plasma malondialdehyde (MDA) levels were analyzed. To examine intracellular redox in lymphocytes, ROS were measured using flow cytometry. Expression of superoxide dismutase (SOD) 1, 2 antioxidants were analyzed using reverse transcription polymerase chain reaction (RT-PCR). RESULTS: Atopic dermatitis patients showed severe DNA damage compared to the control group in both lymphocytes (1.89 and 1.51, respectively, p0.05), plasma MDA levels were significantly increased in atopic dermatitis patients compared to controls (1.45 and 0.80 microM/g respectively, p<0.005). ROS production by activated lymphocytes was increased in atopic dermatitis patients compared to controls. SOD 1, 2 were expressed in all atopic dermatitis patients without significant increase compared to controls. CONCLUSION: Increased DNA damage, lipid peroxidation and ROS production in lymphocytes as indices of oxidative stress were observed in moderate to severe atopic dermatitis patients compared to normal control. Although precise mechanism of oxidative stress on the pathogenesis of atopic dermatitis is not defined yet, decreasing ROS exposure or augmenting antioxidant defenses may be alternative therapeutic approaches for atopic dermatitis.

DNA Damage in Lymphocytes after Hair Dyeing and Related Factors among Women Volunteers / 예방의학회지

OBJECTIVES: To evaluate the DNA damage by hair dyeing in human lymphocytes. METHODS: Comet assays were carried out to evaluate the DNA damage in lymphocytes by hair dyeing. Twenty subjects were selected from women volunteers whose age ranged from 55 to 67 year old. All subjects had no smoking history. Blood samples were collected before and 6 hours after hair dyeing. DNA damage was evaluated by means of the tail moments, which were quantified by a KOMET 4.0 image analysis system. RESUJLTS: The tail moments before hair dyeing showed no significant differences among subjects except for the high frequency group. The mean values of the tail moments in subjects with low and high frequencies of hair dyeing were 1.39 and 1.77, respectively (p<0.05). The tail moments after hair dyeing increased significantly. The mean values of tail moments in subjects before and after hair dyeing were 1.45 and 1.79, respectively (p<0.01). However, the difference levels of DNA damage in lymphocytes before and after hair dyeing were found to be slightly lower in both the dietary supplement taking group and high frequency group. CONCLUSIONS: The high frequency group appears to have a higher level of DNA damage than the low frequency group before hair dyeing. DNA damage in lymphocytes was found to be significantly higher in the volunteers after hair dyeing. In this study, the related factors such as high frequency and taking dietary supplements appeard to reduce DNA damage in lymphocytes after hair dyeing.

DNA Damage in Lymphocytes after Hair Dyeing and Related Factors among Women Volunteers / 예방의학회지

OBJECTIVES: To evaluate the DNA damage by hair dyeing in human lymphocytes. METHODS: Comet assays were carried out to evaluate the DNA damage in lymphocytes by hair dyeing. Twenty subjects were selected from women volunteers whose age ranged from 55 to 67 year old. All subjects had no smoking history. Blood samples were collected before and 6 hours after hair dyeing. DNA damage was evaluated by means of the tail moments, which were quantified by a KOMET 4.0 image analysis system. RESUJLTS: The tail moments before hair dyeing showed no significant differences among subjects except for the high frequency group. The mean values of the tail moments in subjects with low and high frequencies of hair dyeing were 1.39 and 1.77, respectively (p<0.05). The tail moments after hair dyeing increased significantly. The mean values of tail moments in subjects before and after hair dyeing were 1.45 and 1.79, respectively (p<0.01). However, the difference levels of DNA damage in lymphocytes before and after hair dyeing were found to be slightly lower in both the dietary supplement taking group and high frequency group. CONCLUSIONS: The high frequency group appears to have a higher level of DNA damage than the low frequency group before hair dyeing. DNA damage in lymphocytes was found to be significantly higher in the volunteers after hair dyeing. In this study, the related factors such as high frequency and taking dietary supplements appeard to reduce DNA damage in lymphocytes after hair dyeing.