Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo

Flora Mikaeloff; Marco Gelpi; Alejandra Escós; Tianqi Wang; Soham Gupta; Anna Olofsson; Sara Svensson Akusjärvi; Sabrina Schuster; Prajakta Naval; Vikas Sood; Negin Nikouyan; Andreas D Knudsen; Beate Vestad; Julie Høgh; Johannes R Hov; Thomas Benfield; Marius Trøseid; Vinay Pawar; Marijana Rucevic; Rui Benfeitas; Ákos Végvári; Liam O'Mahony; Rajkumar Savai; Niklas K Björkström; Magda Lourda; João Pedro de Magalhães; Siegfried Weiss; Adil Mardinoglu; Mukesh Kumar Varshney; Annika C Karlsson; Yasir Ahmed Syed; Susanne D Nielsen; Ujjwal Neogi

doi:10.1002/advs.202416453

Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo

Flora Mikaeloff, Marco Gelpi, Alejandra Escós, Tianqi Wang, Soham Gupta, Anna Olofsson, Sara Svensson Akusjärvi, Sabrina Schuster, Prajakta Naval, Vikas Sood, Negin Nikouyan, Andreas D Knudsen, Beate Vestad, Julie Høgh, Johannes R Hov, Thomas Benfield, Marius Trøseid, Vinay Pawar, Marijana Rucevic, Rui BenfeitasÁkos Végvári, Liam O'Mahony, Rajkumar Savai, Niklas K Björkström, Magda Lourda, João Pedro de Magalhães, Siegfried Weiss, Adil Mardinoglu, Mukesh Kumar Varshney, Annika C Karlsson, Yasir Ahmed Syed, Susanne D Nielsen, Ujjwal Neogi^*

^*Corresponding author af dette arbejde

Abstract

Risk stratification using multi-omics data deepens understanding of immunometabolism in successfully treated people with HIV (PWH) is inadequately explained. A personalized medicine approach integrating blood cell transcriptomics, plasma proteomics, and metabolomics is employed to identify the mechanisms of immunometabolic complications in prolonged treated PWH from the COCOMO cohort. Among the PWHs, 44% of PWH are at risk of experiencing immunometabolic complications identified using the network-based patient stratification method. Utilizing advanced machine learning techniques and a Bayesian classifier, five plasma protein biomarkers; Tubulin Folding Cofactor B (TBCB), Gamma-Glutamylcyclotransferase (GGCT), Taxilin Alpha (TXLNA), Pyridoxal Phosphate Binding Protein (PLPBP) and Large Tumor Suppressor Kinase 1 (LATS1) are identified as highly differentially abundant between healthy control (HC)-like and immunometabolically at-risk PWHs (all FDR<10-10). The personalized metabolic models predict metabolic perturbations, revealing disruptions in central carbon metabolic fluxes and host tryptophan metabolism in at-risk phenotype. Functional assays in primary cells and cortical forebrain organoids (FBOs) further validate this. Metabolic perturbations lead to persistent monocyte activation, thereby impairing their functions ex vivo. Furthermore, the chronic inflammatory plasma microenvironment contributes to synaptic dysregulation in FBOs. The endogenous plasma inflammatory microenvironment is responsible for chronic inflammation in treated immunometabolically complicated at-risk PWH who have a higher risk of cardiovascular and neuropsychiatric disorders.

Originalsprog	Engelsk
Artikelnummer	e2416453
Tidsskrift	Advanced science (Weinheim, Baden-Wurttemberg, Germany)
Vol/bind	12
Udgave nummer	16
ISSN	2198-3844
DOI	https://doi.org/10.1002/advs.202416453
Status	Udgivet - apr. 2025

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10.1002/advs.202416453Licens: CC BY

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Mikaeloff, F., Gelpi, M., Escós, A., Wang, T., Gupta, S., Olofsson, A., Akusjärvi, S. S., Schuster, S., Naval, P., Sood, V., Nikouyan, N., Knudsen, A. D., Vestad, B., Høgh, J., Hov, J. R., Benfield, T., Trøseid, M., Pawar, V., Rucevic, M., ... Neogi, U. (2025). Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo. Advanced science (Weinheim, Baden-Wurttemberg, Germany), 12(16), Artikel e2416453. https://doi.org/10.1002/advs.202416453

Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo. / Mikaeloff, Flora; Gelpi, Marco; Escós, Alejandra et al.
I: Advanced science (Weinheim, Baden-Wurttemberg, Germany), Bind 12, Nr. 16, e2416453, 04.2025.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Mikaeloff, F, Gelpi, M, Escós, A, Wang, T, Gupta, S, Olofsson, A, Akusjärvi, SS, Schuster, S, Naval, P, Sood, V, Nikouyan, N, Knudsen, AD, Vestad, B, Høgh, J, Hov, JR, Benfield, T, Trøseid, M, Pawar, V, Rucevic, M, Benfeitas, R, Végvári, Á, O'Mahony, L, Savai, R, Björkström, NK, Lourda, M, de Magalhães, JP, Weiss, S, Mardinoglu, A, Varshney, MK, Karlsson, AC, Syed, YA, Nielsen, SD & Neogi, U 2025, 'Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo', Advanced science (Weinheim, Baden-Wurttemberg, Germany), bind 12, nr. 16, e2416453. https://doi.org/10.1002/advs.202416453

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title = "Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo",

abstract = "Risk stratification using multi-omics data deepens understanding of immunometabolism in successfully treated people with HIV (PWH) is inadequately explained. A personalized medicine approach integrating blood cell transcriptomics, plasma proteomics, and metabolomics is employed to identify the mechanisms of immunometabolic complications in prolonged treated PWH from the COCOMO cohort. Among the PWHs, 44% of PWH are at risk of experiencing immunometabolic complications identified using the network-based patient stratification method. Utilizing advanced machine learning techniques and a Bayesian classifier, five plasma protein biomarkers; Tubulin Folding Cofactor B (TBCB), Gamma-Glutamylcyclotransferase (GGCT), Taxilin Alpha (TXLNA), Pyridoxal Phosphate Binding Protein (PLPBP) and Large Tumor Suppressor Kinase 1 (LATS1) are identified as highly differentially abundant between healthy control (HC)-like and immunometabolically at-risk PWHs (all FDR<10-10). The personalized metabolic models predict metabolic perturbations, revealing disruptions in central carbon metabolic fluxes and host tryptophan metabolism in at-risk phenotype. Functional assays in primary cells and cortical forebrain organoids (FBOs) further validate this. Metabolic perturbations lead to persistent monocyte activation, thereby impairing their functions ex vivo. Furthermore, the chronic inflammatory plasma microenvironment contributes to synaptic dysregulation in FBOs. The endogenous plasma inflammatory microenvironment is responsible for chronic inflammation in treated immunometabolically complicated at-risk PWH who have a higher risk of cardiovascular and neuropsychiatric disorders.",

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author = "Flora Mikaeloff and Marco Gelpi and Alejandra Esc{\'o}s and Tianqi Wang and Soham Gupta and Anna Olofsson and Akusj{\"a}rvi, {Sara Svensson} and Sabrina Schuster and Prajakta Naval and Vikas Sood and Negin Nikouyan and Knudsen, {Andreas D} and Beate Vestad and Julie H{\o}gh and Hov, {Johannes R} and Thomas Benfield and Marius Tr{\o}seid and Vinay Pawar and Marijana Rucevic and Rui Benfeitas and {\'A}kos V{\'e}gv{\'a}ri and Liam O'Mahony and Rajkumar Savai and Bj{\"o}rkstr{\"o}m, {Niklas K} and Magda Lourda and {de Magalh{\~a}es}, {Jo{\~a}o Pedro} and Siegfried Weiss and Adil Mardinoglu and Varshney, {Mukesh Kumar} and Karlsson, {Annika C} and Syed, {Yasir Ahmed} and Nielsen, {Susanne D} and Ujjwal Neogi",

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month = apr,

doi = "10.1002/advs.202416453",

language = "English",

volume = "12",

journal = "Advanced science (Weinheim, Baden-Wurttemberg, Germany)",

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TY - JOUR

T1 - Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo

AU - Mikaeloff, Flora

AU - Gelpi, Marco

AU - Escós, Alejandra

AU - Wang, Tianqi

AU - Gupta, Soham

AU - Olofsson, Anna

AU - Akusjärvi, Sara Svensson

AU - Schuster, Sabrina

AU - Naval, Prajakta

AU - Sood, Vikas

AU - Nikouyan, Negin

AU - Knudsen, Andreas D

AU - Vestad, Beate

AU - Høgh, Julie

AU - Hov, Johannes R

AU - Benfield, Thomas

AU - Trøseid, Marius

AU - Pawar, Vinay

AU - Rucevic, Marijana

AU - Benfeitas, Rui

AU - Végvári, Ákos

AU - O'Mahony, Liam

AU - Savai, Rajkumar

AU - Björkström, Niklas K

AU - Lourda, Magda

AU - de Magalhães, João Pedro

AU - Weiss, Siegfried

AU - Mardinoglu, Adil

AU - Varshney, Mukesh Kumar

AU - Karlsson, Annika C

AU - Syed, Yasir Ahmed

AU - Nielsen, Susanne D

AU - Neogi, Ujjwal

PY - 2025/4

Y1 - 2025/4

N2 - Risk stratification using multi-omics data deepens understanding of immunometabolism in successfully treated people with HIV (PWH) is inadequately explained. A personalized medicine approach integrating blood cell transcriptomics, plasma proteomics, and metabolomics is employed to identify the mechanisms of immunometabolic complications in prolonged treated PWH from the COCOMO cohort. Among the PWHs, 44% of PWH are at risk of experiencing immunometabolic complications identified using the network-based patient stratification method. Utilizing advanced machine learning techniques and a Bayesian classifier, five plasma protein biomarkers; Tubulin Folding Cofactor B (TBCB), Gamma-Glutamylcyclotransferase (GGCT), Taxilin Alpha (TXLNA), Pyridoxal Phosphate Binding Protein (PLPBP) and Large Tumor Suppressor Kinase 1 (LATS1) are identified as highly differentially abundant between healthy control (HC)-like and immunometabolically at-risk PWHs (all FDR<10-10). The personalized metabolic models predict metabolic perturbations, revealing disruptions in central carbon metabolic fluxes and host tryptophan metabolism in at-risk phenotype. Functional assays in primary cells and cortical forebrain organoids (FBOs) further validate this. Metabolic perturbations lead to persistent monocyte activation, thereby impairing their functions ex vivo. Furthermore, the chronic inflammatory plasma microenvironment contributes to synaptic dysregulation in FBOs. The endogenous plasma inflammatory microenvironment is responsible for chronic inflammation in treated immunometabolically complicated at-risk PWH who have a higher risk of cardiovascular and neuropsychiatric disorders.

AB - Risk stratification using multi-omics data deepens understanding of immunometabolism in successfully treated people with HIV (PWH) is inadequately explained. A personalized medicine approach integrating blood cell transcriptomics, plasma proteomics, and metabolomics is employed to identify the mechanisms of immunometabolic complications in prolonged treated PWH from the COCOMO cohort. Among the PWHs, 44% of PWH are at risk of experiencing immunometabolic complications identified using the network-based patient stratification method. Utilizing advanced machine learning techniques and a Bayesian classifier, five plasma protein biomarkers; Tubulin Folding Cofactor B (TBCB), Gamma-Glutamylcyclotransferase (GGCT), Taxilin Alpha (TXLNA), Pyridoxal Phosphate Binding Protein (PLPBP) and Large Tumor Suppressor Kinase 1 (LATS1) are identified as highly differentially abundant between healthy control (HC)-like and immunometabolically at-risk PWHs (all FDR<10-10). The personalized metabolic models predict metabolic perturbations, revealing disruptions in central carbon metabolic fluxes and host tryptophan metabolism in at-risk phenotype. Functional assays in primary cells and cortical forebrain organoids (FBOs) further validate this. Metabolic perturbations lead to persistent monocyte activation, thereby impairing their functions ex vivo. Furthermore, the chronic inflammatory plasma microenvironment contributes to synaptic dysregulation in FBOs. The endogenous plasma inflammatory microenvironment is responsible for chronic inflammation in treated immunometabolically complicated at-risk PWH who have a higher risk of cardiovascular and neuropsychiatric disorders.

KW - Adult

KW - Biomarkers/blood

KW - Female

KW - HIV Infections/immunology

KW - Humans

KW - Male

KW - Metabolomics/methods

KW - Middle Aged

KW - Monocytes/metabolism

KW - Synaptic Transmission/physiology

KW - HIV/AIDS

KW - patient stratification

KW - personalized metabolic models

KW - Integrative omics

UR - http://www.scopus.com/inward/record.url?scp=85219636806&partnerID=8YFLogxK

U2 - 10.1002/advs.202416453

DO - 10.1002/advs.202416453

M3 - Journal article

C2 - 40013867

SN - 2198-3844

VL - 12

JO - Advanced science (Weinheim, Baden-Wurttemberg, Germany)

JF - Advanced science (Weinheim, Baden-Wurttemberg, Germany)

IS - 16

M1 - e2416453

ER -

Host Plasma Microenvironment in Immunometabolically Impaired HIV Infection Leads to Dysregulated Monocyte Function and Synaptic Transmission Ex Vivo

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