Atherosclerotic Plaque Fissuration and Clinical Outcomes in Pre-Diabetics vs. Normoglycemics Patients Affected by Asymptomatic Significant Carotid Artery Stenosis at 2 Years of Follow-Up: Role of microRNAs Modulation: The ATIMIR Study

doi:10.3390/biomedicines9040401

. 2021 Apr 8;9(4):401.

doi: 10.3390/biomedicines9040401.

Atherosclerotic Plaque Fissuration and Clinical Outcomes in Pre-Diabetics vs. Normoglycemics Patients Affected by Asymptomatic Significant Carotid Artery Stenosis at 2 Years of Follow-Up: Role of microRNAs Modulation: The ATIMIR Study

Affiliations

¹ Department of Advanced Medical and Surgical Sciences, University of Campania "Luigi Vanvitelli", 80100 Naples, Italy.
² Department of Cardiovascular Sciences, Gemelli Molise S.p.a, 86100 Campobasso, Italy.
³ Department of Molecular Diagnostic, Gemelli Molise S.p.a, 86100 Campobasso, Italy.
⁴ Department of Cardiovascular Sciences, IRCCS A. Gemelli University Policlinic Foundation, 00168 Rome, Italy.
⁵ Mediterranea Cardiocentro, 80122 Naples, Italy.

PMID: 33917851
PMCID: PMC8068301
DOI: 10.3390/biomedicines9040401

Atherosclerotic Plaque Fissuration and Clinical Outcomes in Pre-Diabetics vs. Normoglycemics Patients Affected by Asymptomatic Significant Carotid Artery Stenosis at 2 Years of Follow-Up: Role of microRNAs Modulation: The ATIMIR Study

Celestino Sardu et al. Biomedicines. 2021.

. 2021 Apr 8;9(4):401.

doi: 10.3390/biomedicines9040401.

Authors

Affiliations

¹ Department of Advanced Medical and Surgical Sciences, University of Campania "Luigi Vanvitelli", 80100 Naples, Italy.
² Department of Cardiovascular Sciences, Gemelli Molise S.p.a, 86100 Campobasso, Italy.
³ Department of Molecular Diagnostic, Gemelli Molise S.p.a, 86100 Campobasso, Italy.
⁴ Department of Cardiovascular Sciences, IRCCS A. Gemelli University Policlinic Foundation, 00168 Rome, Italy.
⁵ Mediterranea Cardiocentro, 80122 Naples, Italy.

PMID: 33917851
PMCID: PMC8068301
DOI: 10.3390/biomedicines9040401

Abstract

Atherosclerotic plaque instability and rupture in patients with asymptomatic carotid artery stenosis (ACAS) is a leading cause of major adverse cardiac events (MACE). This could be mainly evidenced in patients with pre-diabetes. Indeed, the altered glucose homeostasis and insulin resistance could cause over-inflammation of atherosclerotic plaque, favoring its conversion to unstable phenotype with rupture and MACE. Notably, metformin therapy reducing the metabolic distress and the inflammatory burden could reduce MACE in ACAS patients with pre-diabetes. In this setting, the microRNAs (miRs) could be used as molecular biomarkers of atherosclerosis progression, plaque rupture, and worse prognosis in normoglycemics (NG) versus pre-diabetics metformin users (PDMU) versus pre-diabetics non-metformin users (PDNMU). However, our study aimed to investigate a wide miRNA panel in peripheral blood exosomes from patients with ACAS divided in NG versus PDMU versus PDNMU, and to associate the circulating miRNA expression profiles with MACE at 2 years of follow-up after endarterectomy. The study included 234 patients with ACAS divided into NG (n = 125), PDNMU (n = 73), and PDMU (n = 36). The miRs' expression profiles of circulating exosomes were determined at baseline and at 2 years of follow-up by Affymetrix microarrays from the patients' plasma samples from any study cohort. Then we collected and analyzed MACE at 2 years of follow-up in NG versus PDMU versus PDNMU. Prediabetics versus NG had over-inflammation (p < 0.05) and over expressed miR-24 and miR-27 at baseline. At 2 years of follow-up, PDNMU versus NG, PDMU versus NG, and PDNMU versus PDMU over-expressed inflammatory markers and miR-24, miR-27, miR-100, miR-126, and miR-133 (p < 0.05). Finally, at the end of follow-up, we observed a significant difference about MACE comparing PDNMU versus NG (n = 27 (36.9%) versus n = 8 (6.4%); p < 0.05), PDNMU versus PDMU (n = 27 (36.9%) versus n = 6 (16.6%); p < 0.05); and PDMU versus NG (n = 6 (16.6%) versus n = 8 (6.4%); p < 0.05). Admission glucose values (HR (hazard ratio) 1.020, CI (confidence of interval) 95% (1.001-1.038), p = 0.029), atheromatous carotid plaque (HR 5.373, CI 95% (1.251-11.079), p = 0.024), and miR-24 (HR 3.842, CI 95% (1.768-19.222), p = 0.011) predicted MACE at 2 years of follow-up. Specific circulating miRs could be over-expressed in pre-diabetics and specifically in PDNMU versus PDMU after endarterectomy. MiR24, hyperglycemia, and atheromatous plaque could predict MACE at 2 years of follow-up.

Keywords: atherosclerotic plaque; inflammation; metformin therapy; microRNAs; pre-diabetes.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
The Kaplan curves for freedom from Major Adverse Cardiac Events (MACE) at 2 years of follow-up in study cohorts. In this figure, the Kaplan curves for freedom from MACE at 2 years of follow-up (24 months) comparing pre-diabetics non-metformin users (PDNMU) versus normoglycemics (NG), pre-diabetics metformin users (PDMU) versus NG, and PDNMU versus PDMU. The curves showed a significant difference regarding freedom from MACE at 2 years of follow-up (24 months) comparing PDNMU versus NG, PDMU versus NG, and PDNMU versus PDMU (p < 0.05). The NG are represented in green color, the PDMU in yellow, and the PDNMU in red color. * Is for statistical significant (p < 0.05).

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References

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1. Sardu C., Paolisso P., Sacra C., Mauro C., Minicucci F., Portoghese M., Rizzo M.R., Barbieri M., Sasso F.C., D’Onofrio N., et al. Effects of Metformin Therapy on Coronary Endothelial Dysfunction in Patients with Prediabetes with Stable Angina and Nonobstructive Coronary Artery Stenosis: The CODYCE Multicenter Prospective Study. Diabetes Care. 2019;42:1946–1955. doi: 10.2337/dc18-2356. - DOI - PubMed

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[1] Spagnoli L.G., Mauriello A., Sangiorgi G., Fratoni S., Bonanno E., Schwartz R.S., Piepgras D.G., Pistolese R., Ippoliti A., Holmes D.R. Extracranial thrombotically active carotid plaque as a risk factor for ischemic stroke. JAMA. 2004;292:1845–1852. doi: 10.1001/jama.292.15.1845. - DOI - PubMed

[2] Spagnoli L.G., Mauriello A., Sangiorgi G., Fratoni S., Bonanno E., Schwartz R.S., Piepgras D.G., Pistolese R., Ippoliti A., Holmes D.R. Extracranial thrombotically active carotid plaque as a risk factor for ischemic stroke. JAMA. 2004;292:1845–1852. doi: 10.1001/jama.292.15.1845. - DOI - PubMed

[3] Marfella R., D’Amico M., Di Filippo C., Baldi A., Siniscalchi M., Sasso F.C., Portoghese M., Carbonara O., Crescenzi B., Sangiuolo P., et al. Increased activity of the ubiquitin-proteasome system in patients with symptomatic carotid disease is associated with enhanced inflammation and may destabilize the atherosclerotic plaque: Effects of rosiglitazone treatment. J. Am. Coll. Cardiol. 2006;47:2444–2455. doi: 10.1016/j.jacc.2006.01.073. - DOI - PubMed

[4] Marfella R., D’Amico M., Di Filippo C., Baldi A., Siniscalchi M., Sasso F.C., Portoghese M., Carbonara O., Crescenzi B., Sangiuolo P., et al. Increased activity of the ubiquitin-proteasome system in patients with symptomatic carotid disease is associated with enhanced inflammation and may destabilize the atherosclerotic plaque: Effects of rosiglitazone treatment. J. Am. Coll. Cardiol. 2006;47:2444–2455. doi: 10.1016/j.jacc.2006.01.073. - DOI - PubMed

[5] Andreou I., Sun X., Stone P.H., Edelman E.R., Feinberg M.W. miRNAs in atherosclerotic plaque initiation, progression, and rupture. Trends Mol. Med. 2015;21:307–318. doi: 10.1016/j.molmed.2015.02.003. - DOI - PMC - PubMed

[6] Andreou I., Sun X., Stone P.H., Edelman E.R., Feinberg M.W. miRNAs in atherosclerotic plaque initiation, progression, and rupture. Trends Mol. Med. 2015;21:307–318. doi: 10.1016/j.molmed.2015.02.003. - DOI - PMC - PubMed

[7] Balestrieri M.L., Rizzo M.R., Barbieri M., Paolisso P., D’Onofrio N., Giovane A., Siniscalchi M., Minicucci F., Sardu C., D’Andrea D., et al. Sirtuin 6 expression and inflammatory activity in diabetic atherosclerotic plaques: Effects of incretin treatment. Diabetes. 2015;64:1395–1406. doi: 10.2337/db14-1149. - DOI - PubMed

[8] Balestrieri M.L., Rizzo M.R., Barbieri M., Paolisso P., D’Onofrio N., Giovane A., Siniscalchi M., Minicucci F., Sardu C., D’Andrea D., et al. Sirtuin 6 expression and inflammatory activity in diabetic atherosclerotic plaques: Effects of incretin treatment. Diabetes. 2015;64:1395–1406. doi: 10.2337/db14-1149. - DOI - PubMed

[9] Sardu C., Paolisso P., Sacra C., Mauro C., Minicucci F., Portoghese M., Rizzo M.R., Barbieri M., Sasso F.C., D’Onofrio N., et al. Effects of Metformin Therapy on Coronary Endothelial Dysfunction in Patients with Prediabetes with Stable Angina and Nonobstructive Coronary Artery Stenosis: The CODYCE Multicenter Prospective Study. Diabetes Care. 2019;42:1946–1955. doi: 10.2337/dc18-2356. - DOI - PubMed

[10] Sardu C., Paolisso P., Sacra C., Mauro C., Minicucci F., Portoghese M., Rizzo M.R., Barbieri M., Sasso F.C., D’Onofrio N., et al. Effects of Metformin Therapy on Coronary Endothelial Dysfunction in Patients with Prediabetes with Stable Angina and Nonobstructive Coronary Artery Stenosis: The CODYCE Multicenter Prospective Study. Diabetes Care. 2019;42:1946–1955. doi: 10.2337/dc18-2356. - DOI - PubMed

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Atherosclerotic Plaque Fissuration and Clinical Outcomes in Pre-Diabetics vs. Normoglycemics Patients Affected by Asymptomatic Significant Carotid Artery Stenosis at 2 Years of Follow-Up: Role of microRNAs Modulation: The ATIMIR Study

Affiliations

Atherosclerotic Plaque Fissuration and Clinical Outcomes in Pre-Diabetics vs. Normoglycemics Patients Affected by Asymptomatic Significant Carotid Artery Stenosis at 2 Years of Follow-Up: Role of microRNAs Modulation: The ATIMIR Study

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