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Uticaj subhroničnog opterećenja homocisteinom na koronarnu hemodinamiku i oksidacioni stres kod pacova: efekti sumporovitih aminokiselina (metionina, N-acetilcisteina i cisteina) i neorganskog Na-hidrogensulfida
The influence of subchronic homocysteine load on coronary haemodynamics and
oxidative stress in rats: effects of sulfuric amino acids (methionine, N-acetylcysteine and
cysteine) and inorganic Na-hydrogen sulphide
Uvod: Sve je veća istraživačka zainteresovanost za delovanje sumporovitih jedinjenja
na kardiovaskularni sistem, pod fiziološkim i patološkim uslovima.
Cilj: Cilj ove eksperimentalne studije bio je ispitivanje efekata akutne primene
sumporovitih aminokiselina (L-metionina, L-cisteina, N-acetilcisteina) i
neorganskog Na-hidrogensulfida na kardiodinamske parametre, koronarni protok i
redoks ravnotežu kod pacova sa normalnim i povišenim vrednostima homocisteina u
krvi.
Materijal i metode: Istraživanje je obuhvatilo 80 Wistar albino pacova koje smo
podelili u dve grupe: kontrolna grupa (dvonedeljni tretman sa 0,9 % NaCl) i
eksperimentalna grupa (subhronična primena DL-homocisteina, u dozi od 0,45 μmol/g
telesne mase, dva puta dnevno, subkutano, u trajanju od 14 dana). Nakon dvonedeljnog
tretmana, pacovi su žrtvovani pri čemu su prikupljeni uzorci krvi za analizu
koncentracija ukupnog homocisteina i biomarkera sistemskog oksidacionog stresa.
Izvršena je procedura izolovanja src...a pacova, u cilju uspostavljanja retrogradne
perfuzije kroz srce metodom po Langendorfu i sprovođenja akutnog tretmana
sumporovitim aminokiselinama (L-Meth, L-Cys, NAC) i neorganskim Nahidrogensulfidom (NaHS). Sumporovite supstance su primenjene u istoj dozi od 0.5
mmol/L, u trajanju od 5 minuta. U levoj komori su kontinuirano praćeni parametri
funkcije leve komore: dp/dtmax, dp/dtmin, SLVP, DLVP i HR. Koronarni protok (CF) se
određivao floumetrijski. U uzorcima krvne plazme i uzorcima koronarnog perfuzata,
spektrofotometrijskim metodama, određivani su biomarkeri oksidacionog stresa:
indeks lipidne peroksidacije (TBARS), azot monoksid u formi nitrita (NO2-),
superoksid anjon radikal (O2-) i vodonik peroksid (H2O2). U hemolizatu eritrocita su
mereni parametri antioksidacionog sistema zaštite: katalaza (CAT), superoksid
dismutaza (SOD) i redukovani glutation (GSH).
Rezultati: Rezultati istraživanja su prikazani kroz 6 tabela i 125 grafikona.
Koncentracije ukupnog homocisteina su bile značajno povišene u eksperimentalnoj u
odnosu na kontrolnu grupu pacova, i kao takve izazivaju znatne promene u funkciji
kardiovaskularnog sistema. Takođe, akutni efekti primenjenih sumporovitih
supstanci su pokazali značajne razlike u odnosu na tretman DL- homocisteinom, na
osnovu čega zaključujemo da sumporovite supstance ispoljavaju različito dejstvo na
kardiovaskularni sistem u zavisnosti od prisustva homocisteina.
Zaključci: Analizom rezultata ovog istraživanja zaključuje se da efekti
sumporovitih aminokiselina (L-Meth, L-Cys, NAC) i neorganskog NaHS imaju
značajnu ulogu u patofiziologiji kardiovaskularnog sistema pri čemu im je glavna
karakteristika dozno-zavistan efekat na funkciju kardiovaskularnog sistema što je i
osnovna karakteristika jedinjenja koja u svom sastavu imaju sumpor.
Introduction: There is growing interest in the activity of sulfur-containing compounds on
cardiovascular system in physiological and pathological conditions.
Aim: Aim of this study was to assess possible differences in the effects of various sulfurcontaining compounds on cardiodynamic parameters, coronary flow and redox balance of
cardiovascular system, in its physiological state and in the early onset of
hyperhomocysteinemia.
Material and methods: This study divided Wistar albino rats into two groups: saline treated
(control group) and DL-homocysteine-treated (experimental group). Rats from experimental
group were subjected to subchronic subcutaneous administration of DL-homocysteine at dose
of 0.45 μmol/g body weight, twice a day for 2 weeks. At the end of this period, rats were
sacrificed, and blood samples were collected to be analysed for homocysteine concentration
and biomarkers of systemic oxidative stress. Isolated rat hearts were excised and attached to
the Langendo...rff apparatus. To assess the effects of acute administration of L-methionine, Lcysteine, N-acetylcysteine, and sodium hydrogen sulfide, the hearts were perfused
individually with each of the mentioned substances at same single dose of 0.5 mmol/L for 5
min. Before, during and after perfusion of isolated rat heart (control, effect and washout) we
continuously monitored (after insertion and placement a sensor in the left ventricle) the
cardiodynamic parameters: a) dp/dt max - maximum rate of change of left ventricle pressure,
b) dp/dt min - minimum rate of change of left ventricle pressure, v) SLVP - systolic left
ventricular pressure, G) DLVP - diastolic left ventricular pressure and d) HR - heart rate. In
the blood and effluent samples we measured biomarkers of oxidative stress: an index of lipid
peroxidation (TBARS), nitric oxide in the form of nitrite (NO2-), superoxide anion radical (O2-
), and hydrogen peroxide (H2O2), and the parameters of antioxidant protection system:
catalase (CAT), superoxide dismutase (SOD) and reduced glutathione (GSH).
Results: The research results are presented in 6 tables and 125 graphs. Total homocysteine
level was significantly higher in the experimental group than in the control group, and the
effects of applied sulfur-containing compounds were significantly different in experimental
and control groups. DL-homocysteine induced considerable changes in functioning of
cardiovascular system even before an increase in plasma homocysteine values, and action of
sulfur-containing compounds varied depending on the presence of homocysteine.
Conclusions: After analyzing the results of this study, it is concluded that the effects of
sulfuric amino acids (L-Meth, L-Cys, NAC) and inorganic NaHS play a significant role in the
pathophysiology of the cardiovascular system, whereby their he main characteristic is the
dose-dependent effect on the function of the cardiovascular system, which is the dominant
quality of sulfur-containing compounds.
Faculty:
Универзитет у Крагујевцу, Факултет медицинских наука
