Mika Hilvo1, Helena Simolin1, Jari Metso2, Maija Ruuth3, Katariina Öörni4, Matti Jauhiainen2, Reijo Laaksonen5, Amos Baruch6. 1. Zora Biosciences Oy, Biologinkuja 1, 02150, Espoo, Finland. 2. Minerva Foundation Institute for Medical Research, Biomedicum, FI-00290, Helsinki, Finland; National Institute for Health and Welfare, Genomics and Biomarkers Unit, Biomedicum, FI-00290, Helsinki, Finland. 3. Wihuri Research Institute, Haartmaninkatu 8, FI-00290, Helsinki, Finland; University of Helsinki, Research Programs Unit, FI-00014, Helsinki, Finland. 4. Wihuri Research Institute, Haartmaninkatu 8, FI-00290, Helsinki, Finland. 5. Zora Biosciences Oy, Biologinkuja 1, 02150, Espoo, Finland; Finnish Cardiovascular Research Center, University of Tampere and Finnish Clinical Biobank Tampere, Tampere University Hospital, Tampere, Finland. Electronic address: reijo.laaksonen@zora.fi. 6. Genentech, Development Sciences, 1 DNA Way MS 46-1A, South San Francisco, CA, 94080, USA. Electronic address: baruch.amos@gene.com.
Abstract
BACKGROUND AND AIMS: While inhibition of proprotein convertase subtilisin/kexin type 9 (PCSK9) is known to result in dramatic lowering of LDL-cholesterol (LDL-C), it is poorly understood how it affects other lipid species and their metabolism. The aim of this study was to characterize the alterations in the lipidome of plasma and lipoprotein particles after administration of PCSK9 inhibiting antibody to patients with established coronary heart disease. METHODS: Plasma samples were obtained from patients undergoing a randomized placebo-controlled phase II trial (EQUATOR) for the safe and effective use of RG7652, a fully human monoclonal antibody inhibiting PCSK9 function. Lipoprotein fractions were isolated by sequential density ultracentrifugation, and both plasma and major lipoprotein classes (VLDL-IDL, LDL, HDL) were subjected to mass spectrometric lipidomic profiling. RESULTS: PCSK9 inhibition significantly decreased plasma levels of several lipid classes, including sphingolipids (dihydroceramides, glucosylceramides, sphingomyelins, ceramides), cholesteryl esters and free cholesterol. Previously established ceramide ratios predicting cardiovascular mortality, or inflammation related eicosanoid lipids, were not altered. RG7652 treatment also affected the overall and relative distribution of lipids in lipoprotein classes. An overall decrease of total lipid species was observed in LDL and VLDL + IDL particles, while HDL-associated phospholipids increased. Following the treatment, LDL displayed reduced lipid cargo, whereas relative lipid proportions of the VLDL + IDL particles were mostly unchanged, and there were relatively more lipids carried in the HDL particles. CONCLUSIONS: Administration of PCSK9 antibody significantly alters the lipid composition of plasma and lipoprotein particles. These changes further shed light on the link between anti-PCSK9 therapies and cardiovascular risk.
RCT Entities:
BACKGROUND AND AIMS: While inhibition of proprotein convertase subtilisin/kexin type 9 (PCSK9) is known to result in dramatic lowering of LDL-cholesterol (LDL-C), it is poorly understood how it affects other lipid species and their metabolism. The aim of this study was to characterize the alterations in the lipidome of plasma and lipoprotein particles after administration of PCSK9 inhibiting antibody to patients with established coronary heart disease. METHODS: Plasma samples were obtained from patients undergoing a randomized placebo-controlled phase II trial (EQUATOR) for the safe and effective use of RG7652, a fully human monoclonal antibody inhibiting PCSK9 function. Lipoprotein fractions were isolated by sequential density ultracentrifugation, and both plasma and major lipoprotein classes (VLDL-IDL, LDL, HDL) were subjected to mass spectrometric lipidomic profiling. RESULTS:PCSK9 inhibition significantly decreased plasma levels of several lipid classes, including sphingolipids (dihydroceramides, glucosylceramides, sphingomyelins, ceramides), cholesteryl esters and free cholesterol. Previously established ceramide ratios predicting cardiovascular mortality, or inflammation related eicosanoidlipids, were not altered. RG7652 treatment also affected the overall and relative distribution of lipids in lipoprotein classes. An overall decrease of total lipid species was observed in LDL and VLDL + IDL particles, while HDL-associated phospholipids increased. Following the treatment, LDL displayed reduced lipid cargo, whereas relative lipid proportions of the VLDL + IDL particles were mostly unchanged, and there were relatively more lipids carried in the HDL particles. CONCLUSIONS: Administration of PCSK9 antibody significantly alters the lipid composition of plasma and lipoprotein particles. These changes further shed light on the link between anti-PCSK9 therapies and cardiovascular risk.
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