Androgenic alopecia (AGA) is one of the most common forms of female pattern baldness, and the incidence of this disease entity increases with age. It is estimated that AGA occurs in about 10% of women in the pre-menopausal period and in 50–75% after the age of 65 [1].
The diagnosis of AGA in women is difficult. No reference diagnostic method has been developed so far which would be helpful both in diagnosis and monitoring of treatment of this form of alopecia. One of the basic examinations is the trichological analysis which allows to assess the percentage of hair at particular stages of growth [2]. Another parameter helpful in the diagnosis of AGA is the determination of the level of hormones in the blood – free and total testosterone, dehydroepiandrosterone and oestrogens. However, the androgen levels in AGA patients may be increased or normal [1].
In androgenic alopecia, dihydrotestosterone (DHT) stimulates the secretion of hair growth inhibitory factors, such as the transforming growth factor β1 and 2 (TGF-β1/p2) [3]. The study by Upton et al. has shown that in vitro culture of dermal papilla (DP) cells, derived from the scalp of male patients with AGA, undergoes premature aging. The main cause of this process is oxidative stress and the gradual accumulation of reactive oxygen species (ROS) in cells, resulting in the loss of their function. ROS mediate in response to DHT and growth factors, which in turn may affect growth factor signalling in the cell [3].
This study aims to investigate oxidative stress in female patients with AGA and in healthy controls by measuring the levels of plasma and erythrocyte malondialdehyde (MDA), the level of the ceruloplasmin (CER) and the activity of paraoxonase 1 (PON1). The study included 12 AGA female patients (mean age: 46.8 ±13) and the control group consisting of 25 age- and sex-matched healthy volunteers (mean age: 32.7 ±11). There was no significant body mass index (BMI) difference between groups.
Plasma and erythrocyte MDA levels were higher in female patients with AGA compared with controls (by 4.76% and 10.99%, respectively), but these differences were not statistically significant (p = 0.205; p = 0.909). However, a significant increase was observed in CER levels (p = 0.015) in the studied group compared with the controls. In contrast, the activity of PON1 was significantly reduced (p = 0.038) in the studied group compared with the healthy volunteers (Table 1).
Table 1
The values of MDA, CER and PON1 in peripheral blood of androgenic alopecia female patients and healthy subjects
The skin is constantly exposed to both endogenous and exogenous oxidizing agents. The action of ROS results in damage to cellular components, such as nucleic acids, proteins and lipids of the cell membrane. The results obtained indicate a disturbance of the oxidative-antioxidant balance in the course of AGA in women.
Lipid peroxides and their products (MDA) may cause disturbances in the normal functioning of most cells and their level correlates with the degree of lipid peroxidation [4, 5]. The increase in lipid peroxidation products in female patients with AGA suggests the presence of oxidative stress.
Ceruloplasmin belongs to preventive antioxidants, and its ability to bind transition metal ions prevents the formation of superoxide anion radical (O2•–) [6]. CER is attributed to approximately 80% of plasma antioxidant properties [7]. An increased concentration of this enzyme in blood plasma, observed in the course of inflammation, is most likely associated with the body response to the oxidative stress accompanying these processes [8]. The observed increase in the CER concentration in female patients with AGA may support the hypothesis of androgenetic alopecia as an inflammatory disease.
Paraoxonase 1 is an enzyme involved in the hydrolysis of ester bonds in the body. Increasing interest in this molecule, however, is primarily associated with its antioxidant activity. PON1 takes part in the degradation of hydrogen peroxides and the metabolism of xenobiotic substances, playing an important role in the body detoxification process [9, 10]. The observed reduced activity of the PON1 enzyme in the studied group’s serum may play a role in the progression and/or development of AGA. Further research is needed to clarify these results.
There are still few literature reports investigating the oxidative stress parameters in the blood of female patients with androgenetic alopecia. Therefore, it was considered interesting to study the antioxidant systems in erythrocytes and plasma of this group of patients.
