Atherogenic lipoproteins particle size and number are more critical determinant of cardiovascular risk than mass of cholesterol present within these – An overview

Authors

DOI:

https://doi.org/10.3126/ajms.v15i8.66366

Keywords:

Lipoproteins; Apolipoprotein-B; Cardiovascular Diseases; Low density Lipoprotein ; Non High density Lipoprotein

Abstract

Sir,
Dyslipidemia is one of the important risk factors for cardiovascular (CV) diseases. As per the current consensus, we assess lipid-derived risk by looking at traditional lipid parameters. We consider low-density lipoprotein cholesterol (LDLc) as a primary therapeutic target. However, many recent studies have claimed apolipoprotein B and non-high-density lipoprotein cholesterol (HDLc) are more accurate in this regard. In India, raised triglyceride levels are a unique and important feature of dyslipidemia. In the presence of high triglycerides, LDLc gets oxidized and becomes a small dense form that is considered more atherogenic than large buyont LDL particles. Hence, in this subset of patients, LDL particle number and size would be more accurate measures of lipid parameters. To explore this aspect, we wrote this short communication to you. Lipoproteins (Lps) are the major contributor to atheromatous plaque formation. Among atherogenic Lps, LDLc has long been considered a major Lp and thus it became a major therapeutic target in all lipid-lowering therapies. Atherosclerotic CV disease (ASCVD) risk is linearly associated with LDLc level. It has been demonstrated that each mmoL/lit decrease in LDLc level is associated with a 20–25% reduction in the risk of major ASCVD events. We have been assessing lipid-derived ASCVD risk by looking at traditional lipid parameters for the last few decades. However, traditional lipid parameters do not reflect the entire atherogenic Lps in the plasma such as Lp(a), and apolipoprotein-B. It has been found in several recent studies that a subset of patients, even with optimal LDLc levels they continue to get ASCVD events and atherosclerosis process progression. This phenomenon has been termed as “residual lipid risk” which cannot be identified by measuring LDLc level alone. Residual lipid risk is the difference between the estimated LDLc value and the actual quantity of circulating atherogenic Lp particles. Non-HDLc comprises cholesterol carried by all potential atherogenesis Lps including LDLc, VLDL, Lp(a), and remnant Lps. Apolipoprotien-B represents the total number of atherogenic Lps in the plasma as each Lp particle contains one molecule of apolipoprotein-B. LDLc represents the total cholesterol concentration of LDL, IDL, and Lp(a). However, LDLc level does not reflect the LDL particle number and size.6 For example, at the same level of LDLc people with small-sized LDL particles will have more number of LDLc particles than people with large-sized LDL particles. As it takes more small-sized LDL to traffic a given mass of cholesterol molecules per liter/deciliter. We know small dense LDL is more atherogenic than large buoynt LDL particles and more easily infiltrate into the arterial intima. In most circumstances, apolipoprotein-B and non-HDLc are highly correlated with each other but not identical as apolipoprotein-B and non-HDLc in addition to LDLc they also include triglyceride-rich Lps. Lp(a) is included in all three measurements. Among statin-treated patients, more pronounced discordance exists between these parameters as statin lowers LDLc more effectively than the other two parameters.10 Hence, it is important to identify this concordance and discordance pattern, particularly in statin-treated patients, otherwise they might have discordantly high apolipoprotein -B levels and they remain at higher risk for ASCVD events despite attainment of optimal LDLc. If we are able to identify that subset of patients, we can take appropriate steps such as statin intensification, the addition of nonstatin therapy, or more aggressive procedures such as lipid apheresis. To date, very small number of studies have been conducted to examine the relationship between these lipid parameters in statin-treated patients. One study was done by Qu et al., they observed LDLc to be discordant with apolipoprotein-B in 31% of cases and with non-HDLc in 20.1% of cases in their study cohort. They also reported the brachial artery pulse wave velocity which is considered a marker of subclinical atherosclerosis, was greater in those with higher apolipoprotein-B or non-HDLc levels. In the adjusted logistic regression model, low LDLc and high apolipoprotein-B or non-HDLc discordance were associated with a risk of arterial stiffness (OR: 13.41). Hence these discordant groups of patients need to be identified to take necessary steps to reduce the residual risk of CV events. Johannesen et al., did concordance discordance analysis and they concluded that statin-treated patients, with elevated apolipoprotein -B and non-HDLc, but not LDLc, are associated with residual risk of all-cause mortality and myocardial infarction. It has been observed that the amount of cholesterol within Lp particles is very substantial. The analysis of the INTERHEART study demonstrated that when apolipoprotein in B level is higher than non-HDLc level that is when cholesterol-depleted apolipoprotein-B particles are present, CV risk is increased, whereas when non-HDLc level is higher than apolipoprotein-B level that means when cholesterol-enriched apolipoprotein-B particles are present, CV risk is less than the reference concordant group. When the mass of cholesterol per  apolipoprotein-B particle is normal, all three measures are concordant. However, when a mass of cholesterol within apolipoprotein-B particles is either greater or lesser, LDLc and non-HDLc are discordant. In both circumstances, the number of apolipoprotein-B particles is not accurately represented by measures of the mass of cholesterol within them. Hence, probably Lp particle number, and size are more critical determinants of CV risk than the mass of cholesterol within them.

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Published

2024-08-03

How to Cite

Saha, A. (2024). Atherogenic lipoproteins particle size and number are more critical determinant of cardiovascular risk than mass of cholesterol present within these – An overview. Asian Journal of Medical Sciences, 15(8), 189–190. https://doi.org/10.3126/ajms.v15i8.66366

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Section

Letters to the Editor