Acupuncture is used to treat many diseases, is needed to explain its mechanism of action. In this study we demonstrate the effects of electroacupuncture (EA) at low frequencies (2–4Hz) in a murine model with a modified model of depression. Depression is one of the most frequent mental disorders in the world, representing the main cause of disability; it is estimated that it affects approximately more than 300 million people in the world, with the female sex being the most affected by this pathology.1 To better understand depression and in search of treatments for it, studies have been carried out in animal models (mainly rats and mice). There are two types of depression, reactive and endogenous, the reactive is the most used in this type of model; which are based on exposing the individual to environmental situations for which he has no alternative solution, evaluating his response.2

One of the models where hopelessness is induced and with which behaviors that indicate a state of depression in animals can be evaluated, is the forced swimming model; where it is possible to observe immobility, which indicates an abandonment of the motivation to escape, representing loss of interest to his life.2,3

In previous studies it has been shown that EA has an anxiolytic effect,4 also that it favors the decrease of the neurotransmitter acetylcholine, helping in the inflammatory process, promotes contact between cells and favors the start of the repair process,5,6 acupuncture in a mouse model with stress and lack of sleep has also been shown to generate effects on inflammatory markers (adenosine receptors MMP-9 and A2A).7

Other studies have shown the importance of the serotonergic system in depressive disorders. In rats, using Zusanli (ST36) and Sanyinjiao (SP6) with the forced swimming test,8 the rats were individually forced to swim 15min in a vertical plexiglass cylinder containing 15cm of water. They were placed back into the cylinders 24h later and the total duration of immobility was measured during a 5min test,9 in which with the application of acupuncture, the mice/rats have greater mobility during the test; this shows that they have less depression data generated by this test. There are works that use other points, Baihui (GV20) and Yintang (extra) for depression, also with a favorable effect4; applying the EA at low frequencies (frequency of 2Hz and an intensity of 0.6mA for 30min/day).4 Tests were performed where EA was applied at 2Hz in Yintang (extra) (anterior midline) and Baihui (GV20) (posterior midline) in the head of rats for three days or four days, reporting that at three days of EA they did not modify the behavior of the rats in the forced swimming test; however, at five days of treatment, the rats showed significant changes, showing longer escalation times and shorter periods of immobility during the forced swimming test. Proposing that EA at 2Hz induces the release of β-endorphins and enkephalins in the brain, which may have anxiolytic and analgesic effects under stress conditions.4

An important neurotransmitter in anxiety-depression is serotonin (5-HT), it is one of the goals to regulate through acupuncture. The mechanisms activated by EA can differ according to the stimulation frequency; low-frequency EA (<15Hz) increases spinal release of met-enkephalins, endomorphins, and β-endorphins, this has been demonstrated even with anesthetized rats.10 As reported, spinal serotonergic modulation is involved in the production of antinociception by 2, 100 and 2/100Hz of EA, influencing the availability of serotonin in the spinal cord.10

Another important effect of acupuncture is the modification of the viscosity of the blood, which increases as a result of stress, and with the application of acupuncture mechanisms that affect levels of cytokines, hormones and leukocytes are generated. The effect on lipid profiles such as low-density lipoprotein cholesterol, high-density lipoprotein cholesterol and triglycerides has also been reported to affect blood viscosity,11 which may be related to some risk factor such as overweight and obesity, as well as the consequences that will be generated with these blood components.

When evaluating the data of the forced swimming test (with the 7-week model of depression), the mice with EA showed a decrease in the immobility time and an increase in the period of escalation during the forced swimming test, also finding an increase in body weight over seven weeks. Mice from the CD-1 strain of the EA group (Baihui (GV20) and Yintang (extra)) showed significant weight gain at 7th week (Table 1), the animals in the Sham group did not gain weight significantly. Fig. 1 shows the average body weight (BW) of each group weekly. The data was analyzed with the Graph Pad software. It was determined that at the end of 7th week, all the mice with EA, fed with the standard diet, presented the same growth trend and the average of the BW of 36.5±2.8g., While the Sham group fed with the standard diet, the average of the BW of 32.3±1.0g. After seven weeks of treatment with EA, there is statistically significant differences (P=0.0012) were observed in the growth curves of each experimental group.

Fig. 1.

Body weight in of mice group per week. Black: Sham group, red: Baihui (GV20) and Yintang (extra) group (n=6 mice in each group). Data are presented as mean±standard deviation of mean. There is a statistical difference between both groups in the 7th week, determined by t test (P=0.0012).

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During the seven weeks, an increase in the escalation period was observed in the group with EA during the forced swimming test, as well as a decrease in the immobility time, which represents according to previously described models,3,9 an improvement in behaviors equivalent to a state of depression; showing an increased interest in fighting and preserving life. Compared with the Sham group, where during the forced swimming tests the immobility time was increasing and the escalation period was reduced, reaching in the last weeks, an almost immobility in the forced swimming test.

In this study, the effect of electroacupuncture was determined, using a modified depression model, which we evaluated and compared with the results of other works.8,9 Studies have been reported where they have extended treatments to five days with important results in the regulation of the organism.4 We evaluated the effect at seven weeks using the Baihui (GV20) and Yintang (extra) points, which have shown an important effect on depression.4 Neurobiological studies of EA at these points have shown that electrical stimulation at 2Hz alters the signaling of the N-methyl-d-aspartate receptor (NMDA), favors a greater expression of the brain-derived neutrootrophic factor (BDNF) and the receptor for tropomyosin kinase (TrkB), predominantly in the hippocampus; it is one of the areas significantly involved in the stress response.4 This reinforces the explanation of some of the mechanisms of action of EA, favoring the antidepressant effects in this model.

So, we also sought to evaluate the relationship between depression and body weight, which is why we extended the forced swimming tests, which was very interesting to observe that, in the 7th week, we obtained a significant result (P=0.0012), with an average increase of 4g in the group with EA. To be able to relate the data shown by the forced swimming test2,3 and acupuncture is a big challenge, since there are reports that demonstrate how with EA in different points such as Zusanli (ST36), Sanyinjiao (SJ6), Baihui (GV20), Yintang (extra), among others, the secretion of different neurotransmitters, peptide hormones or messengers that have to do with the regulation of an altered process can be regulated. As well as relating the use of low frequency EA and the effect on the regulation of serotonin, beta-endorphins and acetylcholine, seeking to justify its effect on depression6,8,10 and how these may be participating in body weight gain in the EA group in this study.

We propose that EA helps to decrease behaviors related to a state of depression and, in turn, these have an effect on body weight gain. This may represent an improvement in the motivation to preserve life, favoring the mice to have an adequate food intake, compared to the Sham group, where the state of depression was observed and the behaviors of hopelessness and loss of interest in the life became generalized, leading the animals to decrease food intake and difficulty increasing their body weight. Furthermore, we can relate the effect of EA on blood homeostasis, since it has been shown that when using EA in Zusanli (ST36), better values are seen in the blood components (triglycerides, cholesterol and fibrinogen),11 this being an indication that applying acupuncture favors the regulation of metabolism, which leads to homeostasis, giving greater sustenance by promoting adequate development with an optimal weight increase in mice, to have a favorable assimilation of nutrients.

EA was shown to have a significant effect on depression in this study. Since, in the murine model, with the modified forced swimming test, a state of depression was perpetuated, and with the application of electroacupuncture at low frequencies it was possible to observe a decrease in signs of hopeless, characteristics of depressive states, finding modification in immobility times; which decreased in the EA group compared to the Sham group. Also finding an increase in the escalation period in the EA group, the effect in the Sham group being contrary. Another important aspect observed in this study is the modification of body weight, which increased in the group with EA (on average 4g), Which could be interpreted as a behavior that seeks to preserve life and therefore mice conserve their appetite, having adequate growth and development.

In this way, it can be shown that the EA has an antidepressant effect, favoring the decrease in the lack of motivation to survive and reducing behaviors corresponding to states of depression. With which we can conclude that this therapeutic method within acupuncture has great utility for the treatment of depression, demonstrating important changes in the behavior and body weight of this model, thus showing the effectiveness of EA at low frequencies.

The authors are very grateful for the financial support from SIP-IPN México (20195880 and 20200919), COFAA-IPN, EDI-IPN and SNI-CONACyT.

The authors declare that they have no conflict of interests.