Нажмите на эту строку чтобы перейти к Новостям сайта "Русский врач"

Перейти
на сайт
журнала
"Врач"
Перейти на сайт журнала "Медицинская сестра"
Перейти на сайт журнала "Фармация"
Перейти на сайт журнала "Молекулярная медицина"
Перейти на сайт журнала "Вопросы биологической, медицинской и фармацевтической химии"
Журнал включен в российские и международные библиотечные и реферативные базы данных

ВАК (Россия)
РИНЦ (Россия)
Эко-Вектор (Россия)

ANALYSIS OF THE RELATIONSHIP BETWEEN INDICATORS OF OXIDATIVE STRESS AND THE AMINO ACID PROFILE OF BLOOD PLASMA IN PSORIASIS

DOI: https://doi.org/10.29296/25877313-2023-08-05
Issue: 
8
Year: 
2023

S.V. Kupriyanov
Post-graduate Student, Department of Biochemistry named after R.I. Lifshitz,
South Ural State Medical University (Chelyabinsk, Russia)
E-mail: pfft@mail.ru
Yu.M. Shatrova
Ph.D. (Biol.), Researcher, Research Institute of Immunology,
South Ural State Medical University (Chelyabinsk, Russia)
D.A. Sysakov
Ph.D. (Med.), Assistant of the Department of Dermatovenereology,
South Ural State Medical University (Chelyabinsk, Russia)
K.S. Fedorova
Senior Laboratory Assistant, Research Institute of Immunology, South Ural State Medical University (Chelyabinsk, Russia)
D.E. Myakotina
Senior Laboratory Assistant, Research Institute of Immunology, South Ural State Medical University (Chelyabinsk, Russia)
A.I. Sinitsky
Dr.Sc. (Med.), Associate Professor, Head of the Department of Biochemistry named after R.I. Lifshitz,
South Ural State Medical University (Chelyabinsk, Russia)

Introduction. Psoriasis is an autoimmune disease that affects the skin, has a number of systemic manifestations and is associated with the devel-opment of a number of somatic pathologies. Significant systemic metabolic features of psoriasis are changes in the pool of free amino acids and oxi-dative stress. The purpose of the study: analysis of markers of lipid peroxidation and oxidative modification of plasma proteins and peripheral mononuclear cells, the amino acid spectrum of blood plasma, in relation to each other and clinical signs of severity and duration of psoriasis, body mass index and blood pressure indicators. Material and methods. The study group included 45 patients with psoriasis vulgaris. The control group included 46 donors. Determination of the lev-els of products of lipid peroxidation and oxidative modification of proteins was carried out by spectrophotometric methods. Blood plasma amino acid levels were determined by capillary electrophoresis. Results. In patients with psoriasis, an increase in the concentrations of primary and secondary products of lipid peroxidation and the level of metal-catalyzed oxidative modification of proteins in blood plasma, a decrease in the concentrations of end products of lipid peroxidation in peripheral mono-nuclear cells were revealed. In the amino acid profile of the blood plasma of patients with psoriasis, an increase in the relative concentration of sulfur-containing amino acids, concentrations of phenylalanine, leucine, cysteine, and a decrease in the relative concentration of oxyaminoacids were re-vealed. Relationships between the levels of amino acids and markers of oxidative stress with the duration of the course of the disease or exacerbation, as well as the severity of psoriatic lesions of the skin, were not revealed. Cysteine levels in patients with psoriasis are positively correlated with body mass index and diastolic blood pressure; the relative content of oxyaminoacids in blood plasma negatively correlates with body mass index. Conclusions. Changes in the amino acid profile of blood plasma in psoriasis occur in parallel with oxidative stress and skin inflammation, but are as-sociated with excess body weight for cysteine and oxyaminoacids, which allows us to consider the levels of cysteine and oxyaminoacids as promising prognostic and diagnostic markers of comorbid pathology associated with psoriasis.
Keywords: 
metabolomics
amino acids
oxidative stress
psoriasis
References: 
  1. Chapel H., Haeney M., Misbah S.A., Snowden N. Essentials of Clinical Immunology Includes Wiley E-Text, 6th Edition. John Wiley & Sons, 2013.
  2. Yamanaka K., Yamamoto O., Honda T. Pathophysiology of psoriasis: a review. The Journal of Dermatology. 2021; 48; 6: 722–731.
  3. Yamazaki F. Psoriasis: Comorbidities. The Journal of Dermatology. 2021; 48; 6: 732–740.
  4. Yan D., Afifi L., Jeon C., et al. The metabolomics of psoriatic disease. Psoriasis (Auckl). 2017; 7: 1–15.
  5. Tarentini E., Odorici G., Righi V., et al. Integrated metabolomic analysis and cytokine profiling define clusters of immuno-metabolic correlation in new-onset psoria-sis. Sci. Rep. 2021; 11;1: 10472.
  6. Dobrică E.-C.; Cozma M.-A.; Găman M.-A. et al. The involvement of oxidative stress in psoriasis: a systematic review. Antioxidants. 2022; 11; 2: 282.
  7. Poinsot V., Ong-Meang V., Ric A., et al. Recent advances in amino acid analysis using capillary electromigration methods, 2013-2015. Electrophoresis. 2016; 37(1): 142–161.
  8. L'vovskaja E.I., Volchegorskij I.A., Shemjakov S.E., Lif-shic R.I. Spektrofotometricheskoe opredelenie konechnyh produktov perekisnogo okislenija lipidov. Voprosy medicinskoj himii. 1991; 37; 4: 92–93.
  9. Volchegorskij I.A., Nalimov A.G., Jarovinskij B.G., Lif-shic R.I. Sopostavlenie razlichnyh podhodov k opredeleniju produktov perekisnogo okislenija lipidov v gep-tan-izopropanol'nyh jekstraktah krovi. Voprosy medi-cinskoj himii. 1989; 35(1): 127–131.
  10. Patent № 2524667 C1 RF. Sposob kompleksnoj ocenki soderzhanija produktov okislitel'noj modifikacii belkov v tkanjah i biologicheskih zhidkostjah / M.A. Fomina, Ju.V. Abalenihina, N.V. Fomina, A.A. Terent'ev.
  11. Fuss I.J., Kanof M.E., Smith P.D., Zola H. Isolation of whole mononuclear cells from peripheral blood and cord blood. Current protocols in immunology. 2009; 85(1): 7.1.1–7.1.8.
  12. Ronner P. Netter's Essential Biochemistry E-Book. Elsevier Health Sciences. 2016.
  13. Lin X., Meng X., Song Z. Homocysteine and psoriasis. Bioscience Reports. 2019; 39; 11.