Nuclear import of malaria RNA rewires splicing in host immune cells

Paula Abou Karam; Edo Kiper; Tamar Ziv; Shaked Yadid; Ewa Kozela; Nir Zharoni; Reinat Nevo; Daniel Alfandari; Helina Otesh; Abel Cruz Camacho; Yoav Lubelsky; Ron Rotkopf; Eviatar Weizman; Moshe Cossin; Irit Rosenhek-Goldian; Ekaterina Petrovich-Kopitman; Ziv Porat; Ofer Shoshani; Igor Ulitsky; Carmit Levy; Zeev Melamed; Neta Regev-Rudzki

doi:10.1016/j.celrep.2026.116953

Nuclear import of malaria RNA rewires splicing in host immune cells

Paula Abou Karam
, Edo Kiper
, Tamar Ziv
, Shaked Yadid
, Ewa Kozela
, Nir Zharoni
, Reinat Nevo
, Daniel Alfandari
, Helina Otesh
, Abel Cruz Camacho
, Yoav Lubelsky
, Ron Rotkopf
, Eviatar Weizman
, Moshe Cossin
, Irit Rosenhek-Goldian
, Ekaterina Petrovich-Kopitman
, Ziv Porat
, Ofer Shoshani
, Igor Ulitsky
, Carmit Levy

Zeev Melamed, Neta Regev-Rudzki

Department of Medical Neurobiology

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

Abstract

Eukaryotic pathogens deploy diverse strategies to manipulate host immunity, yet RNA-based virulence mechanisms remain poorly understood. We describe a mechanism by which the malaria parasite Plasmodiumfalciparum governs host immune responses through direct interference with host nuclear RNA processing. Malaria-encoded mRNAs of the early transcribed membrane protein family, exported from infected red blood cells, evade cytoplasmic degradation within host immune cells and are imported into their highly secured nuclei. Inside the nucleus, parasite transcripts bind the host RNA-binding proteins ACIN1 and PNN, key components of the splicing machinery that associate with the exon junction complex. This interaction disrupts host splicing regulation, leading to widespread misprocessing of transcripts and altered expression of proteins involved in immune function. Our findings uncover an RNA-based strategy by which pathogen-derived transcripts exploit the host splicing machinery, reshaping transcript isoform landscapes and immune signaling.

Original language	English
Pages (from-to)	116953
Number of pages	1
Journal	Cell Reports
Volume	45
Issue number	2
DOIs	https://doi.org/10.1016/j.celrep.2026.116953
State	Published - 24 Feb 2026

Bibliographical note

Publisher Copyright:
Copyright © 2026 The Author(s). Published by Elsevier Inc. All rights reserved.

Keywords

ACIN1
cell-cell communication
CP: microbiology
CP: molecular biology
extracellular RNA
extracellular vesicles
host-pathogen interaction
malaria
PNN
splicing
splicing dysregulation

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10.1016/j.celrep.2026.116953

Cite this

Abou Karam, P., Kiper, E., Ziv, T., Yadid, S., Kozela, E., Zharoni, N., Nevo, R., Alfandari, D., Otesh, H., Cruz Camacho, A., Lubelsky, Y., Rotkopf, R., Weizman, E., Cossin, M., Rosenhek-Goldian, I., Petrovich-Kopitman, E., Porat, Z., Shoshani, O., Ulitsky, I., ... Regev-Rudzki, N. (2026). Nuclear import of malaria RNA rewires splicing in host immune cells. Cell Reports, 45(2), 116953. https://doi.org/10.1016/j.celrep.2026.116953

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abstract = "Eukaryotic pathogens deploy diverse strategies to manipulate host immunity, yet RNA-based virulence mechanisms remain poorly understood. We describe a mechanism by which the malaria parasite Plasmodiumfalciparum governs host immune responses through direct interference with host nuclear RNA processing. Malaria-encoded mRNAs of the early transcribed membrane protein family, exported from infected red blood cells, evade cytoplasmic degradation within host immune cells and are imported into their highly secured nuclei. Inside the nucleus, parasite transcripts bind the host RNA-binding proteins ACIN1 and PNN, key components of the splicing machinery that associate with the exon junction complex. This interaction disrupts host splicing regulation, leading to widespread misprocessing of transcripts and altered expression of proteins involved in immune function. Our findings uncover an RNA-based strategy by which pathogen-derived transcripts exploit the host splicing machinery, reshaping transcript isoform landscapes and immune signaling.",

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Abou Karam, P, Kiper, E, Ziv, T, Yadid, S, Kozela, E, Zharoni, N, Nevo, R, Alfandari, D, Otesh, H, Cruz Camacho, A, Lubelsky, Y, Rotkopf, R, Weizman, E, Cossin, M, Rosenhek-Goldian, I, Petrovich-Kopitman, E, Porat, Z, Shoshani, O, Ulitsky, I, Levy, C, Melamed, Z & Regev-Rudzki, N 2026, 'Nuclear import of malaria RNA rewires splicing in host immune cells', Cell Reports, vol. 45, no. 2, pp. 116953. https://doi.org/10.1016/j.celrep.2026.116953

TY - JOUR

T1 - Nuclear import of malaria RNA rewires splicing in host immune cells

AU - Abou Karam, Paula

AU - Kiper, Edo

AU - Ziv, Tamar

AU - Yadid, Shaked

AU - Kozela, Ewa

AU - Zharoni, Nir

AU - Nevo, Reinat

AU - Alfandari, Daniel

AU - Otesh, Helina

AU - Cruz Camacho, Abel

AU - Lubelsky, Yoav

AU - Rotkopf, Ron

AU - Weizman, Eviatar

AU - Cossin, Moshe

AU - Rosenhek-Goldian, Irit

AU - Petrovich-Kopitman, Ekaterina

AU - Porat, Ziv

AU - Shoshani, Ofer

AU - Ulitsky, Igor

AU - Levy, Carmit

AU - Melamed, Zeev

AU - Regev-Rudzki, Neta

PY - 2026/2/24

Y1 - 2026/2/24

N2 - Eukaryotic pathogens deploy diverse strategies to manipulate host immunity, yet RNA-based virulence mechanisms remain poorly understood. We describe a mechanism by which the malaria parasite Plasmodiumfalciparum governs host immune responses through direct interference with host nuclear RNA processing. Malaria-encoded mRNAs of the early transcribed membrane protein family, exported from infected red blood cells, evade cytoplasmic degradation within host immune cells and are imported into their highly secured nuclei. Inside the nucleus, parasite transcripts bind the host RNA-binding proteins ACIN1 and PNN, key components of the splicing machinery that associate with the exon junction complex. This interaction disrupts host splicing regulation, leading to widespread misprocessing of transcripts and altered expression of proteins involved in immune function. Our findings uncover an RNA-based strategy by which pathogen-derived transcripts exploit the host splicing machinery, reshaping transcript isoform landscapes and immune signaling.

AB - Eukaryotic pathogens deploy diverse strategies to manipulate host immunity, yet RNA-based virulence mechanisms remain poorly understood. We describe a mechanism by which the malaria parasite Plasmodiumfalciparum governs host immune responses through direct interference with host nuclear RNA processing. Malaria-encoded mRNAs of the early transcribed membrane protein family, exported from infected red blood cells, evade cytoplasmic degradation within host immune cells and are imported into their highly secured nuclei. Inside the nucleus, parasite transcripts bind the host RNA-binding proteins ACIN1 and PNN, key components of the splicing machinery that associate with the exon junction complex. This interaction disrupts host splicing regulation, leading to widespread misprocessing of transcripts and altered expression of proteins involved in immune function. Our findings uncover an RNA-based strategy by which pathogen-derived transcripts exploit the host splicing machinery, reshaping transcript isoform landscapes and immune signaling.

KW - ACIN1

KW - cell-cell communication

KW - CP: microbiology

KW - CP: molecular biology

KW - extracellular RNA

KW - extracellular vesicles

KW - host-pathogen interaction

KW - malaria

KW - PNN

KW - splicing

KW - splicing dysregulation

UR - https://www.scopus.com/pages/publications/105031633912

U2 - 10.1016/j.celrep.2026.116953

DO - 10.1016/j.celrep.2026.116953

M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???

C2 - 41689806

AN - SCOPUS:105031633912

SN - 2211-1247

VL - 45

SP - 116953

JO - Cell Reports

JF - Cell Reports

IS - 2

ER -

Nuclear import of malaria RNA rewires splicing in host immune cells

Abstract

Bibliographical note

Keywords

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