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. 2022 May;605(7908):152-159.
doi: 10.1038/s41586-022-04673-6. Epub 2022 Apr 27.

Neuroimmune cardiovascular interfaces control atherosclerosis

Sarajo K Mohanta #  1   2 Li Peng #  3 Yuanfang Li  4 Shu Lu  4 Ting Sun  4 Lorenzo Carnevale  5 Marialuisa Perrotta  5   6 Zhe Ma  4 Benjamin Förstera  7 Karen Stanic  7 Chuankai Zhang  4 Xi Zhang  4 Piotr Szczepaniak  8 Mariaelvy Bianchini  4 Borhan R Saeed  9 Raimondo Carnevale  5 Desheng Hu  10 Ryszard Nosalski  11 Fabio Pallante  5 Michael Beer  12 Donato Santovito  4   13   14 Ali Ertürk  7 Thomas C Mettenleiter  15 Barbara G Klupp  15 Remco T A Megens  4   13   16 Sabine Steffens  4   13 Jaroslav Pelisek  17   18 Hans-Henning Eckstein  17 Robert Kleemann  19   20 Livia Habenicht  21 Ziad Mallat  22 Jean-Baptiste Michel  23 Jürgen Bernhagen  13   7   24 Martin Dichgans  7   24 Giuseppe D'Agostino  25 Tomasz J Guzik  8   11 Peder S Olofsson  26 Changjun Yin  4   13 Christian Weber #  4   13   24   27 Giuseppe Lembo #  5   6 Daniela Carnevale #  5   6 Andreas J R Habenicht #  28   29
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Free article

Neuroimmune cardiovascular interfaces control atherosclerosis

Sarajo K Mohanta et al. Nature. 2022 May.
Free article

Erratum in

  • Author Correction: Neuroimmune cardiovascular interfaces control atherosclerosis.
    Mohanta SK, Peng L, Li Y, Lu S, Sun T, Carnevale L, Perrotta M, Ma Z, Förstera B, Stanic K, Zhang C, Zhang X, Szczepaniak P, Bianchini M, Saeed BR, Carnevale R, Hu D, Nosalski R, Pallante F, Beer M, Santovito D, Ertürk A, Mettenleiter TC, Klupp BG, Megens RTA, Steffens S, Pelisek J, Eckstein HH, Kleemann R, Habenicht L, Mallat Z, Michel JB, Bernhagen J, Dichgans M, D'Agostino G, Guzik TJ, Olofsson PS, Yin C, Weber C, Lembo G, Carnevale D, Habenicht AJR. Mohanta SK, et al. Nature. 2025 Dec 17. doi: 10.1038/s41586-025-10043-9. Online ahead of print. Nature. 2025. PMID: 41407863 No abstract available.

Abstract

Atherosclerotic plaques develop in the inner intimal layer of arteries and can cause heart attacks and strokes1. As plaques lack innervation, the effects of neuronal control on atherosclerosis remain unclear. However, the immune system responds to plaques by forming leukocyte infiltrates in the outer connective tissue coat of arteries (the adventitia)2-6. Here, because the peripheral nervous system uses the adventitia as its principal conduit to reach distant targets7-9, we postulated that the peripheral nervous system may directly interact with diseased arteries. Unexpectedly, widespread neuroimmune cardiovascular interfaces (NICIs) arose in mouse and human atherosclerosis-diseased adventitia segments showed expanded axon networks, including growth cones at axon endings near immune cells and media smooth muscle cells. Mouse NICIs established a structural artery-brain circuit (ABC): abdominal adventitia nociceptive afferents10-14 entered the central nervous system through spinal cord T6-T13 dorsal root ganglia and were traced to higher brain regions, including the parabrachial and central amygdala neurons; and sympathetic efferent neurons projected from medullary and hypothalamic neurons to the adventitia through spinal intermediolateral neurons and both coeliac and sympathetic chain ganglia. Moreover, ABC peripheral nervous system components were activated: splenic sympathetic and coeliac vagus nerve activities increased in parallel to disease progression, whereas coeliac ganglionectomy led to the disintegration of adventitial NICIs, reduced disease progression and enhanced plaque stability. Thus, the peripheral nervous system uses NICIs to assemble a structural ABC, and therapeutic intervention in the ABC attenuates atherosclerosis.

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References

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