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Alterations of Amino Acid Level in Depressed Rat Brain
Yang, Pei,Li, Xuechun,Ni, Jian,Tian, Jingchen,Jing, Fu,Qu, Changhai,Lin, Longfei,Zhang, Hui The Korean Society of Pharmacology 2014 The Korean Journal of Physiology & Pharmacology Vol.18 No.5
Amino-acid neurotransmitter system dysfunction plays a major role in the pathophysiology of depression. Several studies have demonstrated the potential of amino acids as a source of neuro-specific biomarkers could be used in future diagnosis of depression. Only partial amino acids such as glycine and asparagine were determined from certain parts of rats' brain included hippocampi and cerebral cortex in previous studies. However, according to systematic biology, amino acids in different area of brain are interacted and interrelated. Hence, the determination of 34 amino acids through entire rats' brain was conducted in this study in order to demonstrate more possibilities for biomarkers of depression by discovering other potential amino acids in more areas of rats' brain. As a result, 4 amino acids (L-aspartic acid, L-glutamine, taurine and ${\gamma}$-amino-n-butyric acid) among 34 were typically identified as potentially primary biomarkers of depression by data statistics. Meanwhile, an antidepressant called Fluoxetine was employed to verify other potential amino acids which were not identified by data statistics. Eventually, we found L-${\alpha}$-amino-adipic acid could also become a new potentially secondary biomarker of depression after drug validation. In conclusion, we suggested that L-aspartic acid, L-glutamine, taurine, ${\gamma}$-amino-n-butyric acid and L-${\alpha}$-amino-adipic acid might become potential biomarkers for future diagnosis of depression and development of antidepressant.
Alterations of Amino Acid Level in Depressed Rat Brain
Pei Yang,Xuechun Li,Jian Ni,Jingchen Tian,Fu Jing,Changhai Qu,Longfei Lin,Hui Zhang 대한약리학회 2014 The Korean Journal of Physiology & Pharmacology Vol.18 No.5
Amino-acid neurotransmitter system dysfunction plays a major role in the pathophysiology ofdepression. Several studies have demonstrated the potential of amino acids as a source of neuro-specificbiomarkers could be used in future diagnosis of depression. Only partial amino acids such as glycineand asparagine were determined from certain parts of rats’ brain included hippocampi and cerebralcortex in previous studies. However, according to systematic biology, amino acids in different areaof brain are interacted and interrelated. Hence, the determination of 34 amino acids through entirerats’ brain was conducted in this study in order to demonstrate more possibilities for biomarkers ofdepression by discovering other potential amino acids in more areas of rats’ brain. As a result, 4 aminoacids (L-aspartic acid, L-glutamine, taurine and γ -amino-n-butyric acid) among 34 were typicallyidentified as potentially primary biomarkers of depression by data statistics. Meanwhile, anantidepressant called Fluoxetine was employed to verify other potential amino acids which were notidentified by data statistics. Eventually, we found L-α -amino-adipic acid could also become a newpotentially secondary biomarker of depression after drug validation. In conclusion, we suggested thatL-aspartic acid, L-glutamine, taurine, γ-amino-n-butyric acid and L-α-amino-adipic acid might becomepotential biomarkers for future diagnosis of depression and development of antidepressant.