Abstract
Introduction: Acute myocardial infarction (AMI) is a leading cause of mortality worldwide for which several risk factors have been identified. Kisspeptin is a multifunctional peptide observed in atherosclerotic plaques. This study aimed to compare kisspeptin serum levels in AMI patients and healthy individuals.
Methods: This case-control study was conducted on patients visiting the Cardiology department of Peymanieh Hospital, Jahrom University of Medical Sciences, Iran. Participants were randomly divided into a case and a control groups; the former consisting of 90 AMI patients and the latter of 90 healthy individuals with no cardiac diseases. Blood samples were collected from the participants who also completed the given questionnaire. The enzyme-linked immunosorbent assay (ELISA) test was used to determine kisspeptin levels following serum separation from collected blood samples. Data analysis was performed in SPSS-19 using descriptive (mean and standard deviation) and analytical (The Mann-Whitney U test) statistical tests.
Results: The mean age of treatment and control groups was 60.91 and 61.72 years, respectively. The majority (73.3%) of participants in this study were men. Kisspeptin serum concentrations were demonstrated to be significantly lower in the case group than the control group (P<0.001). The results of Mann-Whitney U test revealed that kisspeptin serum concentrations of case and control groups did not have a significant relationship with such variables as gender, smoking, and ST-segment elevation and non-ST-segment elevation (P>0.05).
Conclusion: The results revealed that kisspeptin serum concentrations of AMI patients were significantly lower than those of healthy individuals. Accordingly, kisspeptin deficiency appears to be a risk factor for AMI. However, due to the multifunctional nature of this peptide, further studies are necessary to discover its precise mechanism of action.
Introduction
Cardiac arrest is a major global cause of mortality and disablement. From a pathological perspective, it corresponds to the death of cardiomyocytes due to prolonged ischemia Apple et al., 2002. The general consensus of basic medical and clinical scientists is that endothelial health plays a fundamental role in the proper functioning of the vascular system in several organs such as the heart, kidney, brain, and lung and in the regulation of vascular tone and hemostatic/fibrinolytic balance. Therefore, any endothelial damage leads to pathogenesis and cardiovascular diseases Mensah, 2007Osto et al., 2007. By destroying endothelial cells, vascular trauma or plaque causes an inflammatory response that leads to ischemia Libby et al., 2010.
Plaques contain blood cells, lipids, proteins, and calcification Verma et al., 2002. Myocardial infarction is developed due to a combination of environmental factors and individual predispositions Zimmerman et al., 1995.
Kisspeptin is a protein structure derived from a 145-amino-acid precursor (and encoded by the KISS1 gene) De Bond and Smith, 2014. Based on immunohistochemical findings, kisspeptin and its receptor have been localized in the brainstem-hypothalamus, spinal cord, pituitary gland, ovarian, prostate Hesling et al., 2004Samson et al., 2000, vascular smooth muscles Maguire et al., 2011, and atherosclerotic plaques Mead et al., 2007.
In addition, they have been observed in isolated rings of coronary arteries and umbilical vein, with KP-10, KP-13, and KP-54 acting as vasoconstrictors with high potencies. The local detection and vasoconstrictor action of kisspeptin in human vascular system suggests that they may act as novel paracrine vascular transmitters as the KISS1 receptor. Discrete localization of kisspeptin receptors along vessels makes them susceptible to atherosclerosis and implicates the pathophysiology of this receptor system in cardiovascular diseases Mead et al., 2007.
Given the lack of previous research on this topic, the present study aimed to compare kisspeptin serum levels in AMI patients and healthy individuals.
Materials - Methods
This case-control study was conducted on patients visiting the Cardiology Department of Peymanieh Hospital, Jahrom University of Medical Sciences, Iran. Participants were randomly divided into a case and a control group; the former consisting of 90 AMI patients and the latter of 90 healthy individuals exhibiting no symptoms of cardiac diseases, angina or dyspnea. They had normal electrocardiograms (diagnosed by a cardiologist, based on The World Health Organization standards) and were matched with the treatment group in terms of gender and age.
This study was conducted based on the declaration of Helsinki and approved by the ethics committee of Jahrom University of Medical Sciences. All individuals had consent to participate in study and based on the testimonial they could leave the study.
Blood samples were collected from the participants who also completed the given questionnaire. Blood serum was separated from the collected blood samples and kept at -70°C until serum separation was complete. The ELISA test was conducted on serum samples to determine kisspeptin levels. Data analysis was performed in SPSS ver.19 using descriptive (mean and standard deviation) and analytical (The Mann-Whitney U test) statistical tests.
Results
The demographic information and biochemical findings of the treatment and control groups are presented in Table 1 .
ST-elevation was observed in 82.2% of participants. Kisspeptin serum concentrations were demonstrated to be significantly lower in the case group than the control group (P<0.001). Moreover, LDL cholesterol (LDL-C) serum concentrations were significantly higher in the case group than the control group (P<0.05).
The results of Mann-Whitney U test revealed that kisspeptin serum concentrations of treatment and control groups did not have a significant relationship with such variables as gender, smoking, and ST-elevation and non-ST-elevation (P>0.05) ( Table 2 ).
Discussion
Based on previous studies on kisspeptin, the present research sought to compare kisspeptin serum concentrations of AMI patients and healthy individuals for the first time.
The results revealed that serum level changes did not have a significant relationship with age. In a study titled “Plasma Kisspeptin-54 Levels in Gastric Cancer Patients”, Ergen et al., demonstrated that kisspeptin serum levels did not have a significant relationship with age Ergen et al., 2012, which is in line with the present study. In another study by Sesti et al., on the relationship between plasma kisspeptin levels in non-diabetic individuals with insulin secretion, plasma kisspeptin levels were shown to be significantly and positively related to age Andreozzi et al., 2017 which is inconsistent with the results of the present study.
Similarly, Gong et al., determined the changes of serum leptin and kisspeptin levels in Chinese children and adolescents in different pubertal stages. Their results indicated that serum kisspeptin levels were positively related to the age of participants Pan et al., 2016.
These discrepancies may be attributed to the age-heterogeneous populations of these studies as well as other inherent characteristics. Moreover, Kisspeptin serum concentrations of the two groups did not have a significant relationship with gender. In a similar vein, Ergen et al., did not find a significant relationship between kisspeptin serum levels and gender Ergen et al., 2012, which corresponds to the results of the present study.
In addition, kisspeptin serum concentrations of the treatment and control groups did not have a significant relationship with smoking. In a study conducted by Jayasena et al., on the effect of kisspeptin on miscarriage, smoking by pregnant women was demonstrated to not have a significant relationship with kisspeptin serum levels Prague and Dhillo, 2015, which is consistent with the present study.
Finally, LDL-C serum levels of AMI patients were higher than those of healthy individuals. In another study aimed at comparing lipid profiles in patients with AMI and unstable angina pectoris, Amouzadeh et al., observed higher LDL-C serum levels in AMI patients than those with unstable angina pectoris Amozadeh et al., 2010. Since abnormal lipid concentration is a major risk factor for cardiovascular diseases, the higher LDL-C serum levels in AMI patients compared with healthy individuals is reasonable.
Conclusion
The results revealed that kisspeptin serum concentrations of AMI patients were significantly lower than those of healthy individuals, which could be used to argue that low kisspeptin serum levels in AMI patients might prove risky. Since kisspeptin is a multifunctional peptide Prague and Dhillo, 2015, more extensive results are required to understand the complex pathways regulated by this peptide and the way these pathways are combined within the entire human body system by considering the various functional roles it plays.
Abbreviations
AMI: Acute myocardial infarction
FBS: Fasting Blood Sugar
HDL-C: high density lipoprotein- cholesterol
LDL-C: low density lipoprotein- cholesterol
NST-MI: Non ST-elevation myocardial infarction
ST-MI: ST-elevation myocardial infarction
TG: Triglyceride
Author Contribution
Mohammad Shojaei: Design of study, proposal of study writing, final content of study. Abdolreza Sotoodeh Jahromi, Saeideh Erfanian, Naeimeh Yusefi: proposal of study writing, interpretation, final content of study. Abdolhossein Madani: proposal of study writing, enrolled data, manuscript writing/ Mohammad Hojjat-Farsangi: Design of study, proposal of study writing, analysis, interpretation, manuscript writing, final content of study. All authors read and approved the final version of manuscript.
References
-
K.
Amozadeh,
M.
Saravi,
S.
Abrotan,
M.
Amiri.
Serum levels of LP (a) with LDL, VLDL, and HDL in 218 hospitalized cases with AMI or UA. [CJIM]. Caspian Journal of Internal Medicine.
2010;
1
:
12-15
.
-
F.
Andreozzi,
G. C.
Mannino,
E.
Mancuso,
R.
Spiga,
F.
Perticone,
G.
Sesti.
Plasma kisspeptin levels are associated with insulin secretion in nondiabetic individuals. PLoS One.
2017;
12(6)
:
e0179834
.
View Article PubMed Google Scholar -
F. S.
Apple,
A. H.
Wu,
A. S.
Jaffe.
European Society of Cardiology and American College of Cardiology guidelines for redefinition of myocardial infarction: How to use existing assays clinically and for clinical trials. American Heart Journal.
2002;
144(6)
:
981-986
.
View Article PubMed Google Scholar -
J.-A. P.
De Bond,
J. T.
Smith.
Kisspeptin and energy balance in reproduction. Reproduction (Cambridge.
2014;
England)
:
147(3)
.
View Article PubMed Google Scholar -
A.
Ergen,
E.
Canbay,
D.
Bugra,
U.
Zeybek,
S.
Yamaner,
T.
Bulut.
Plasma Kisspeptin-54 levels in gastric cancer patients. International Journal of Surgery.
2012;
10(9)
:
551-554
.
View Article PubMed Google Scholar -
C.
Hesling,
M.
D’Incan,
S.
Mansard,
F.
Franck,
A.
Corbin-Duval,
C.
Chèvenet,
Y. J.
Bignon.
In vivo and in situ modulation of the expression of genes involved in metastasis and angiogenesis in a patient treated with topical imiquimod for melanoma skin metastases. British Journal of Dermatology.
2004;
150(4)
:
761-767
.
View Article PubMed Google Scholar -
P.
Libby,
Y.
Okamoto,
V. Z.
Rocha,
E.
Folco.
Inflammation in atherosclerosis: Transition from theory to practice. Circulation Journal.
2010;
74(2)
:
213-220
.
View Article PubMed Google Scholar -
J. J.
Maguire,
H. R.
Kirby,
E. J.
Mead,
R. E.
Kuc,
X.
d’Anglemont de Tassigny,
W. H.
Colledge,
A. P.
Davenport.
Inotropic action of the puberty hormone kisspeptin in rat, mouse and human: Cardiovascular distribution and characteristics of the kisspeptin receptor. PLoS One.
2011;
6(11)
:
e27601
.
View Article PubMed Google Scholar -
E. J.
Mead,
J. J.
Maguire,
R. E.
Kuc,
A. P.
Davenport.
Kisspeptins are novel potent vasoconstrictors in humans, with a discrete localization of their receptor, G protein-coupled receptor 54, to atherosclerosis-prone vessels. Endocrinology.
2007;
148(1)
:
140-147
.
View Article PubMed Google Scholar -
G. A.
Mensah.
Healthy endothelium: The scientific basis for cardiovascular health promotion and chronic disease prevention. Vascular Pharmacology.
2007;
46(5)
:
310-314
.
View Article PubMed Google Scholar -
E.
Osto,
G.
Coppolino,
M.
Volpe,
F.
Cosentino.
Restoring the dysfunctional endothelium. Current Pharmaceutical Design.
2007;
13(10)
:
1053-1068
.
View Article PubMed Google Scholar -
H. J.
Zhu,
S. J.
Li,
H.
Pan,
N.
Li,
D. X.
Zhang,
L. J.
Wang,
F. Y.
Gong.
The Changes of Serum Leptin and Kisspeptin Levels in Chinese Children and Adolescents in Different Pubertal Stages. International Journal of Endocrinology.
2016;
2016
:
6790794
.
View Article PubMed Google Scholar -
J. K.
Prague,
W. S.
Dhillo.
Potential clinical use of kisspeptin. Neuroendocrinology.
2015;
102(3)
:
238-245
.
View Article PubMed Google Scholar -
W. K.
Samson,
Z. T.
Resch,
T. C.
Murphy.
A novel action of the newly described prolactin-releasing peptides: Cardiovascular regulation. Brain Research.
2000;
858(1)
:
19-25
.
View Article PubMed Google Scholar -
S.
Verma,
C.-H.
Wang,
S.-H.
Li,
A. S.
Dumont,
P. W.
Fedak,
M. V.
Badiwala,
D. J.
Stewart.
A self-fulfilling prophecy: C-reactive protein attenuates nitric oxide production and inhibits angiogenesis. Circulation.
2002;
106(8)
:
913-919
.
View Article PubMed Google Scholar -
F. H.
Zimmerman,
A.
Cameron,
L. D.
Fisher,
G.
Ng.
Myocardial infarction in young adults: Angiographic characterization, risk factors and prognosis (Coronary Artery Surgery Study Registry). Journal of the American College of Cardiology.
1995;
26(3)
:
654-661
.
View Article PubMed Google Scholar
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Volume & Issue : Vol 5 No 3 (2018)
Page No.: 2111-2118
Published on: 2018-03-25
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