Identification of a gene network driving the attenuated response to lipopolysaccharide of monocytes from hypertensive coronary artery disease patients

Chang Lu; Marjo M. P. C. Donners; Julius B. J. de Baaij; Han Jin; Jeroen J. T. Otten; Marco Manca; Anton Jan van Zonneveld; J. Wouter Jukema; Adriaan Kraaijeveld; Johan Kuiper; Gerard Pasterkamp; Barend Mees; Judith C. Sluimer; Rachel Cavill; Joël M. H. Karel; Pieter Goossens; Erik A. L. Biessen

doi:10.3389/fimmu.2024.1286382

Identification of a gene network driving the attenuated response to lipopolysaccharide of monocytes from hypertensive coronary artery disease patients

Chang Lu, Marjo M. P. C. Donners^*, Julius B. J. de Baaij, Han Jin, Jeroen J. T. Otten, Marco Manca, Anton Jan van Zonneveld, J. Wouter Jukema, Adriaan Kraaijeveld, Johan Kuiper, Gerard Pasterkamp, Barend Mees, Judith C. Sluimer, Rachel Cavill, Joël M. H. Karel, Pieter Goossens, Erik A. L. Biessen

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Introduction: The impact of cardiovascular disease (CVD) risk factors, encompassing various biological determinants and unhealthy lifestyles, on the functional dynamics of circulating monocytes—a pivotal cell type in CVD pathophysiology remains elusive. In this study, we aimed to elucidate the influence of CVD risk factors on monocyte transcriptional responses to an infectious stimulus. Methods: We conducted a comparative analysis of monocyte gene expression profiles from the CTMM – CIRCULATING CELLS Cohort of coronary artery disease (CAD) patients, at baseline and after lipopolysaccharide (LPS) stimulation. Gene co-expression analysis was used to identify gene modules and their correlations with CVD risk factors, while pivotal transcription factors controlling the hub genes in these modules were identified by regulatory network analyses. The identified gene module was subjected to a drug repurposing screen, utilizing the LINCS L1000 database. Results: Monocyte responsiveness to LPS showed a highly significant, negative correlation with blood pressure levels (ρ< -0.4; P<10^-80). We identified a ZNF12/ZBTB43-driven gene module closely linked to diastolic blood pressure, suggesting that monocyte responses to infectious stimuli, such as LPS, are attenuated in CAD patients with elevated diastolic blood pressure. This attenuation appears associated with a dampening of the LPS-induced suppression of oxidative phosphorylation. Finally, we identified the serine-threonine inhibitor MW-STK33-97 as a drug candidate capable of reversing this aberrant LPS response. Conclusions: Monocyte responses to infectious stimuli may be hampered in CAD patients with high diastolic blood pressure and this attenuated inflammatory response may be reversed by the serine-threonine inhibitor MW-STK33-97. Whether the identified gene module is a mere indicator of, or causal factor in diastolic blood pressure and the associated dampened LPS responses remains to be determined.

Original language	English
Article number	1286382
Number of pages	13
Journal	Frontiers in Immunology
Volume	15
DOIs	https://doi.org/10.3389/fimmu.2024.1286382
Publication status	Published - 12 Feb 2024

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Lu, C., Donners, M. M. P. C., de Baaij, J. B. J., Jin, H., Otten, J. J. T., Manca, M., van Zonneveld, A. J., Jukema, J. W., Kraaijeveld, A., Kuiper, J., Pasterkamp, G., Mees, B., Sluimer, J. C., Cavill, R., Karel, J. M. H., Goossens, P., & Biessen, E. A. L. (2024). Identification of a gene network driving the attenuated response to lipopolysaccharide of monocytes from hypertensive coronary artery disease patients. Frontiers in Immunology, 15, Article 1286382. https://doi.org/10.3389/fimmu.2024.1286382

@article{24b5d06903914e6b9223206820f79a65,

title = "Identification of a gene network driving the attenuated response to lipopolysaccharide of monocytes from hypertensive coronary artery disease patients",

abstract = "Introduction: The impact of cardiovascular disease (CVD) risk factors, encompassing various biological determinants and unhealthy lifestyles, on the functional dynamics of circulating monocytes—a pivotal cell type in CVD pathophysiology remains elusive. In this study, we aimed to elucidate the influence of CVD risk factors on monocyte transcriptional responses to an infectious stimulus. Methods: We conducted a comparative analysis of monocyte gene expression profiles from the CTMM – CIRCULATING CELLS Cohort of coronary artery disease (CAD) patients, at baseline and after lipopolysaccharide (LPS) stimulation. Gene co-expression analysis was used to identify gene modules and their correlations with CVD risk factors, while pivotal transcription factors controlling the hub genes in these modules were identified by regulatory network analyses. The identified gene module was subjected to a drug repurposing screen, utilizing the LINCS L1000 database. Results: Monocyte responsiveness to LPS showed a highly significant, negative correlation with blood pressure levels (ρ< -0.4; P<10-80). We identified a ZNF12/ZBTB43-driven gene module closely linked to diastolic blood pressure, suggesting that monocyte responses to infectious stimuli, such as LPS, are attenuated in CAD patients with elevated diastolic blood pressure. This attenuation appears associated with a dampening of the LPS-induced suppression of oxidative phosphorylation. Finally, we identified the serine-threonine inhibitor MW-STK33-97 as a drug candidate capable of reversing this aberrant LPS response. Conclusions: Monocyte responses to infectious stimuli may be hampered in CAD patients with high diastolic blood pressure and this attenuated inflammatory response may be reversed by the serine-threonine inhibitor MW-STK33-97. Whether the identified gene module is a mere indicator of, or causal factor in diastolic blood pressure and the associated dampened LPS responses remains to be determined.",

author = "Chang Lu and Donners, {Marjo M. P. C.} and {de Baaij}, {Julius B. J.} and Han Jin and Otten, {Jeroen J. T.} and Marco Manca and {van Zonneveld}, {Anton Jan} and Jukema, {J. Wouter} and Adriaan Kraaijeveld and Johan Kuiper and Gerard Pasterkamp and Barend Mees and Sluimer, {Judith C.} and Rachel Cavill and Karel, {Jo{\"e}l M. H.} and Pieter Goossens and Biessen, {Erik A. L.}",

year = "2024",

month = feb,

day = "12",

doi = "10.3389/fimmu.2024.1286382",

language = "English",

volume = "15",

journal = "Frontiers in Immunology",

issn = "1664-3224",

publisher = "Frontiers Media S.A.",

}

Lu, C, Donners, MMPC, de Baaij, JBJ, Jin, H, Otten, JJT, Manca, M, van Zonneveld, AJ, Jukema, JW, Kraaijeveld, A, Kuiper, J, Pasterkamp, G, Mees, B , Sluimer, JC , Cavill, R , Karel, JMH , Goossens, P & Biessen, EAL 2024, 'Identification of a gene network driving the attenuated response to lipopolysaccharide of monocytes from hypertensive coronary artery disease patients', Frontiers in Immunology, vol. 15, 1286382. https://doi.org/10.3389/fimmu.2024.1286382

TY - JOUR

T1 - Identification of a gene network driving the attenuated response to lipopolysaccharide of monocytes from hypertensive coronary artery disease patients

AU - Lu, Chang

AU - Donners, Marjo M. P. C.

AU - de Baaij, Julius B. J.

AU - Jin, Han

AU - Otten, Jeroen J. T.

AU - Manca, Marco

AU - van Zonneveld, Anton Jan

AU - Jukema, J. Wouter

AU - Kraaijeveld, Adriaan

AU - Kuiper, Johan

AU - Pasterkamp, Gerard

AU - Mees, Barend

AU - Sluimer, Judith C.

AU - Cavill, Rachel

AU - Karel, Joël M. H.

AU - Goossens, Pieter

AU - Biessen, Erik A. L.

PY - 2024/2/12

Y1 - 2024/2/12

N2 - Introduction: The impact of cardiovascular disease (CVD) risk factors, encompassing various biological determinants and unhealthy lifestyles, on the functional dynamics of circulating monocytes—a pivotal cell type in CVD pathophysiology remains elusive. In this study, we aimed to elucidate the influence of CVD risk factors on monocyte transcriptional responses to an infectious stimulus. Methods: We conducted a comparative analysis of monocyte gene expression profiles from the CTMM – CIRCULATING CELLS Cohort of coronary artery disease (CAD) patients, at baseline and after lipopolysaccharide (LPS) stimulation. Gene co-expression analysis was used to identify gene modules and their correlations with CVD risk factors, while pivotal transcription factors controlling the hub genes in these modules were identified by regulatory network analyses. The identified gene module was subjected to a drug repurposing screen, utilizing the LINCS L1000 database. Results: Monocyte responsiveness to LPS showed a highly significant, negative correlation with blood pressure levels (ρ< -0.4; P<10-80). We identified a ZNF12/ZBTB43-driven gene module closely linked to diastolic blood pressure, suggesting that monocyte responses to infectious stimuli, such as LPS, are attenuated in CAD patients with elevated diastolic blood pressure. This attenuation appears associated with a dampening of the LPS-induced suppression of oxidative phosphorylation. Finally, we identified the serine-threonine inhibitor MW-STK33-97 as a drug candidate capable of reversing this aberrant LPS response. Conclusions: Monocyte responses to infectious stimuli may be hampered in CAD patients with high diastolic blood pressure and this attenuated inflammatory response may be reversed by the serine-threonine inhibitor MW-STK33-97. Whether the identified gene module is a mere indicator of, or causal factor in diastolic blood pressure and the associated dampened LPS responses remains to be determined.

AB - Introduction: The impact of cardiovascular disease (CVD) risk factors, encompassing various biological determinants and unhealthy lifestyles, on the functional dynamics of circulating monocytes—a pivotal cell type in CVD pathophysiology remains elusive. In this study, we aimed to elucidate the influence of CVD risk factors on monocyte transcriptional responses to an infectious stimulus. Methods: We conducted a comparative analysis of monocyte gene expression profiles from the CTMM – CIRCULATING CELLS Cohort of coronary artery disease (CAD) patients, at baseline and after lipopolysaccharide (LPS) stimulation. Gene co-expression analysis was used to identify gene modules and their correlations with CVD risk factors, while pivotal transcription factors controlling the hub genes in these modules were identified by regulatory network analyses. The identified gene module was subjected to a drug repurposing screen, utilizing the LINCS L1000 database. Results: Monocyte responsiveness to LPS showed a highly significant, negative correlation with blood pressure levels (ρ< -0.4; P<10-80). We identified a ZNF12/ZBTB43-driven gene module closely linked to diastolic blood pressure, suggesting that monocyte responses to infectious stimuli, such as LPS, are attenuated in CAD patients with elevated diastolic blood pressure. This attenuation appears associated with a dampening of the LPS-induced suppression of oxidative phosphorylation. Finally, we identified the serine-threonine inhibitor MW-STK33-97 as a drug candidate capable of reversing this aberrant LPS response. Conclusions: Monocyte responses to infectious stimuli may be hampered in CAD patients with high diastolic blood pressure and this attenuated inflammatory response may be reversed by the serine-threonine inhibitor MW-STK33-97. Whether the identified gene module is a mere indicator of, or causal factor in diastolic blood pressure and the associated dampened LPS responses remains to be determined.

U2 - 10.3389/fimmu.2024.1286382

DO - 10.3389/fimmu.2024.1286382

M3 - Article

SN - 1664-3224

VL - 15

JO - Frontiers in Immunology

JF - Frontiers in Immunology

M1 - 1286382

ER -

Identification of a gene network driving the attenuated response to lipopolysaccharide of monocytes from hypertensive coronary artery disease patients

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