Progress in Research on Post-Traumatic Stress Disorder *

In recent years, with the increase of natural disasters, wars, and terrorist incidents, etc., there are more and more researches on post-traumatic stress disorder (PTSD). This paper bases on the definition, pathogenic mechanism and related gene research of post-traumatic stress disorder. Mechanism, reviews the research status of post-traumatic stress disorder to improve people’s understanding of post-traumatic stress disorder, and prospect for future research.

Since the concept of post-traumatic stress disorder (PTSD) was formally proposed, its definition has been revised for three times.In 1980, the third edition of the Diagnostic and Statistical Manual of Mental Disorders (DSM-III) first proposed post-traumatic stress disorder, described as a psychiatric symptom caused by exposure to traumatic events beyond normal humans [1].During the Second World War, people further realized that the "cannonball shock" neurosis can occur in a wide range.In 2000, the definition of post-traumatic stress disorder in the Fourth Edition of the Diagnostic and Statistical Manual of Mental Disorders tal disorders [2].Compared to the third edition, this definition complements the time characteristics of PTSD.PTSD usually occurs after several days, weeks, or even months of trauma, and the duration of symptoms varies from patient to patient, ranging from one month to several years.In addition, the manual also pointed out the three core symptoms of PTSD: recurrence of traumatic experience, persistent avoidance and increased levels of persistent alertness; in 2013, the Fifth edition of the Diagnostic and Statistical Manual of Mental Disorders (DSM-V) remains the definition of PTSD unchanged, but the core symptoms of "cognitive and mood-related negative changes associated with traumatic events" have been added.As a result, the symptoms of PTSD have changed from three core symptoms to four core symptoms [3].Through more than 30 years of PTSD definition changes, along with the social development, people's understanding of post-traumatic stress disorder is getting deeper and deeper.PTSD have hypersensitivity to small doses of dexamethasone inhibition.It is currently believed that PTSD patients may have increased sensitivity to glucocorticoid receptor (GR) and GR-mediated negative feedback.Enhanced [9] additional studies have found a sustained increase in adrenaline and norepinephrine in patients with PTSD, while blood BDNF is significantly lower than in the normal population [10].Bracha HS et al. [11] found that apoptosis of blue spot neurons may be one of the important causes of dysfunction of blue spot in patients with PTSD.However, the above research results still have some controversy and need further discussion.

Pathogenic Gene Research
PTSD has some certain heritability, and the disease is also considered to be multi-genetic.The susceptibility of PTSD symptoms after non-war trauma is moderately inherited, and many genes affecting trauma exposure also affect the susceptibility to the symptoms of PTSD.Molecular genetics through animal studies found that PTSD may be associated with the dopamine system (DRD2, dopamine transporter gene DAT), serotonin system (serotonin transporter gene 5-HTT), glucocorticoid receptor gene (GR), gamma The aminobutyric acid (GABA) receptor gene, the apolipoprotein E (APOE) gene, the brain-derived neurotrophic factor (BDNF) gene and the neuropeptide Y (NPY) gene are involved.

DRD2 and PTSD
Dopamine is a neurotransmitter in the hypothalamus and pituitary gland, it is a chemical material used to help cells and transmit pulses, and has axonal connections and interactions with the gonadotropin-releasing hormone at the nerve endings.Ishibashi K et al. [12] found that the severity of PTSD was positively correlated with the level of dopamine in the urine and plasma of patients.The concentration of dopamine in the central nervous system is affected by mental factors and is mainly responsible for the lust and feeling of the brain.The midbrain dopamine system is associated with the psychomotor effects of drug addiction and the control of reward mechanisms.Literature [13] [14] reported that the midbrain dopamine system and the midbrain cortex dopamine system also play an important role in learning and memory.PTSD is to some extent a mental disorder associated with emotional memory.
A number of animal experiments suggest that dopaminergic neurons in the amygdala and other regions of the limbic system are highly sensitive to traumatic stress.The central application of dopamine agonists can reduce mortality after experimental traumatic stress in mice, and the use of dopamine receptor blockers can increase mortality after experimental traumatic stress in mice [15].with A2 alleles are more likely to develop tardive dyskinesia in men with PTSD [18].Christianne et al. [19] studied a group of PTSD patients with substance abuse and found that the higher the frequency of DRD2TapIA, the higher the incidence of PTSD.Segman et al. [20] showed that the dopamine transporter SLC6A3 (DAT1) 3' polymorphism is associated with the development of chronic PTSD.As a result, veterans carrying the S-allele of the 5-HTTLPR polymorphism may face an increased risk of adjustment problems and a lower quality of life after deployment to the theater.The results of the RH Pietrzak et al. [26] study suggest that the low expression variant of the 5-HTTLPR polymorphism modifies the risk of PTSD.

Other Gene-Related Findings Associated with PTSD
1) Low expression of FKBP5mRNA may be associated with high levels of symptomatic risk of PTSD [27] [28].2) GABA receptor subunit α3 polymorphisms GABRA2 are associated with post-traumatic PTSD in children [29].3) Studies of patients with PTSD who have experienced war have shown that the ApoE2 allele is associated with symptoms such as memory impairment [30].

Vision
Although many advances have been achieved in the research of PTSD in recent years, there are still many problems that have not been solved, for example, the pathogenesis of PTSD caused by GA2, BA, etc., and whether PTSD neurophysiological changes and emotional stimulation are encoded, etc., which are helpful to understand the high-risk factors of PTSD, also beneficial to the early intervention and treatment of PTSD, providing new methods and ideas for future clinical practice and research.

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DSM-IV) was updated as experiencing unusual threatening or catastrophic stress events (situations) leading to delayed emergence and Long-standing men-N.Bei et al.DOI: 10.4236/jbbs.2019.9200327 Journal of Behavioral and Brain Science The DRD2 gene encoding the dopamine D2 receptor is located at 11q22-q23 and is 65.8 kb in length.It consists of 8 exons and 7 introns and encodes a pro-N.Bei et al.DOI: 10.4236/jbbs.2019.9200329 Journal of Behavioral and Brain Science tein containing 415 amino acid residues.It belongs to the G protein coupled receptor family, DRD2 gene can form two long isoforms (D2L) and short (D2S) by alternative splicing.D2L is multi-distributed and protruded from the posterior membrane, while D2S is distributed in the presynaptic membrane [16].Studies have shown that dopamine D2 receptors are present in the human central nervous system and gastric mucosa, but are rarely distributed on the gastric mucosa.In human genetics research, the single nucleotide polymorphism of DRD2 gene may have three types: gene polymorphism in promoter region, gene polymorphism in coding region, and polymorphism in non-coding region.Many studies have shown that the occurrence of PTSD is related to the DRD2 gene, and research in this area has continued.A deletion/insertion mutation (−141 Cdel/ins) of one cytosine at position −141 in the promoter region is one of the most interesting sites.The DRD2 gene encoding the D2 receptor is located in the 11q23 region of the chromosome, and has a total length of 270 kb, and has 8 exons.The TaqIA cleavage site exists on the D2 receptor gene, and the resulting TaqIA polymorphism has two alleles A1 and A2, and three genotypes A1/A1, A1/A2, and A2/A2.Animal experiments have confirmed that dopaminergic neurons in the amygdala and other regions of the limbic system are highly sensitive to traumatic stress.The use of dopamine agonists in the central nervous system can reduce mortality after experimental traumatic stress in rats, while dopamine receptor blockers have the opposite effect [17].Non-coding region SNPs includes TapIA, B, and C. TapIA has four alleles A1-A4.Studies have shown that individuals

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HTT) is an important transmitter of the central nervous system, and the gene encoding 5-HTT has been shown to be closely related to various psychiatric diseases.The 5-hydroxytryptamine transporter (5-HTTLPR) plays a crucial role in the delivery of 5-HTT transmitter activity.Foreign studies on 5-HTTLPR began in the year of 1944.In 1996, Lesch reported on Science that 5-HTTLPR has a great correlation with anxiety, making polymorphism research of this gene a hot spot [21] [22] [23].At present, more researches are on the 5-HTTLPR polymorphism related to emotion, spirit, personality disorder and personality traits.5-HTTLPR has a 44 bp fragment deletion or insertion.The resulting alleles are S (containing 14 repeat units) and L (containing 16 repeat units), which constitute three genotypes SS, SL, LL.Y Liu et al. [24] explored the relationship between 5-HTTLPR polymorphism and combat exposure and PTSD diagnosis.The results showed a correlation between 5-HTTLPR genotype N. Bei et al.Journal of Behavioral and Brain Science and PTSD diagnosis in NHB veterans.NA Kimbrel et al. [25] explored the 186 returned Iraqi and Afghan veterans genotyped as a 5-HTTLPR polymorphism.