SHP2: A Redox-Sensitive Regulator Linking Immune Checkpoint Inhibitor Therapy to Cancer Treatment and Vascular Risk

Silvia Fernanda López Moreno; Stefania Assunto Lenz; Bernardo Casso-Chapa; Angelica Paniagua-Bojorges; Jung Hyun Kim; Nicolas L. Palaskas; Kevin T. Nead; Venkata S.K. Samanthapudi; Gilbert Mejia; Oanh Hoang; Jonghae Lee; Steven H. Lin; Joerg Herrmann; Guangyu Wang; Syed Wamique Yusuf; Cezar A. Iliescu; Noah I. Beinart; Charlotte Manisty; Masuko Ushio-Fukai; Tohru Fukai; Pietro Ameri; Roza I. Nurieva; Michelle A.T. Hildebrandt; Keri Schadler; Efstratios Koutroumpakis; Sivareddy Kotla; Nhat Tu Le; Jun Ichi Abe

doi:10.3390/antiox14121388

SHP2: A Redox-Sensitive Regulator Linking Immune Checkpoint Inhibitor Therapy to Cancer Treatment and Vascular Risk

Silvia Fernanda López Moreno, Stefania Assunto Lenz, Bernardo Casso-Chapa, Angelica Paniagua-Bojorges, Jung Hyun Kim, Nicolas L. Palaskas, Kevin T. Nead, Venkata S.K. Samanthapudi, Gilbert Mejia, Oanh Hoang, Jonghae Lee, Steven H. Lin, Joerg Herrmann, Guangyu Wang, Syed Wamique Yusuf, Cezar A. Iliescu, Noah I. Beinart, Charlotte Manisty, Masuko Ushio-Fukai, Tohru FukaiPietro Ameri, Roza I. Nurieva, Michelle A.T. Hildebrandt, Keri Schadler, Efstratios Koutroumpakis, Sivareddy Kotla, Nhat Tu Le, Jun Ichi Abe

Research output: Contribution to journal › Review article › peer-review

1 Scopus citations

Abstract

Src homology 2-domain containing protein tyrosine phosphatase 2 (SHP2), encoded by the Ptpn11 gene (Tyrosine-protein phosphatase non-receptor type 11), is a key downstream effector of PD-1/PD-L1 signaling and is likely important, in addition to immune modulation, in tumor development and vascular homeostasis. SHP2 conveys PD-1 mediated inhibitory signaling in T cells, and is emerging as a therapeutic target. Importantly, there is an association between immune checkpoint inhibitors (ICIs), immune-related adverse events (irAEs), and cardiovascular complications, underscoring the need to understand SHP2’s role in these processes. This review aims to summarize current knowledge on SHP2/PTPN11 biology, its role in immune regulation, cancer progression, and vascular homeostasis, and to discuss emerging therapeutic strategies targeting this pathway. The concept of using SHP2 inhibitors with immune checkpoint inhibitors (ICIs) is being investigated to address ICI resistance and to improve anti-tumor efficacy substantially. SHP2 is also being studied in non-cancer cell contexts, and signaling responses can differ by large magnitudes depending on the biological context and stimuli. Under normal circumstances, SHP2 promotes vascular homeostasis in endothelial cells (ECs) and myeloid cells and inhibits inflammation, and the reduction in SHP2 activity by oxidative stress, such as in atherosclerosis or diabetes, upregulates inflammation. In contrast, in response to radiation, the fibrotic response and subsequent lung injury were increased by endothelial SHP2 induction via Notch-Jag1 signaling. Vascular smooth muscle cells SHP2 act as a pro-atherogenic effector by enhancing ERK/MAPK signaling, and the upregulation of mitochondria localized SHP2 can also induce cellular senescence-associated inflammation by upregulating mitochondrial reactive oxygen species. Taken together, the two opposite signaling effects of SHP2 suggest that both the immune and vascular system responses appear to be more modulated by the redox, cell, and compartment-specific signaling of SHP2. More studies are needed for mitigating cardiovascular toxicity to patients, particularly with ICI-based treatment regimens.

Original language	English (US)
Article number	1388
Journal	Antioxidants
Volume	14
Issue number	12
DOIs	https://doi.org/10.3390/antiox14121388
State	Published - Dec 2025

Keywords

ICI
PD-1
PD-L1
SHP2 tyrosine phosphatase
and cardiovascular disease
cancer
oxidative stress
scaffold protein

ASJC Scopus subject areas

Food Science
Physiology
Biochemistry
Molecular Biology
Clinical Biochemistry
Cell Biology

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10.3390/antiox14121388

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López Moreno, S. F., Lenz, S. A., Casso-Chapa, B., Paniagua-Bojorges, A., Kim, J. H., Palaskas, N. L., Nead, K. T., Samanthapudi, V. S. K., Mejia, G., Hoang, O., Lee, J., Lin, S. H., Herrmann, J., Wang, G., Yusuf, S. W., Iliescu, C. A., Beinart, N. I., Manisty, C., Ushio-Fukai, M., ... Abe, J. I. (2025). SHP2: A Redox-Sensitive Regulator Linking Immune Checkpoint Inhibitor Therapy to Cancer Treatment and Vascular Risk. Antioxidants, 14(12), Article 1388. https://doi.org/10.3390/antiox14121388

López Moreno, SF, Lenz, SA, Casso-Chapa, B, Paniagua-Bojorges, A, Kim, JH, Palaskas, NL, Nead, KT, Samanthapudi, VSK, Mejia, G, Hoang, O, Lee, J, Lin, SH, Herrmann, J, Wang, G, Yusuf, SW, Iliescu, CA, Beinart, NI, Manisty, C, Ushio-Fukai, M, Fukai, T, Ameri, P, Nurieva, RI, Hildebrandt, MAT, Schadler, K, Koutroumpakis, E, Kotla, S, Le, NT & Abe, JI 2025, 'SHP2: A Redox-Sensitive Regulator Linking Immune Checkpoint Inhibitor Therapy to Cancer Treatment and Vascular Risk', Antioxidants, vol. 14, no. 12, 1388. https://doi.org/10.3390/antiox14121388

@article{93f0925804984dd59b4f955f25126a23,

title = "SHP2: A Redox-Sensitive Regulator Linking Immune Checkpoint Inhibitor Therapy to Cancer Treatment and Vascular Risk",

abstract = "Src homology 2-domain containing protein tyrosine phosphatase 2 (SHP2), encoded by the Ptpn11 gene (Tyrosine-protein phosphatase non-receptor type 11), is a key downstream effector of PD-1/PD-L1 signaling and is likely important, in addition to immune modulation, in tumor development and vascular homeostasis. SHP2 conveys PD-1 mediated inhibitory signaling in T cells, and is emerging as a therapeutic target. Importantly, there is an association between immune checkpoint inhibitors (ICIs), immune-related adverse events (irAEs), and cardiovascular complications, underscoring the need to understand SHP2{\textquoteright}s role in these processes. This review aims to summarize current knowledge on SHP2/PTPN11 biology, its role in immune regulation, cancer progression, and vascular homeostasis, and to discuss emerging therapeutic strategies targeting this pathway. The concept of using SHP2 inhibitors with immune checkpoint inhibitors (ICIs) is being investigated to address ICI resistance and to improve anti-tumor efficacy substantially. SHP2 is also being studied in non-cancer cell contexts, and signaling responses can differ by large magnitudes depending on the biological context and stimuli. Under normal circumstances, SHP2 promotes vascular homeostasis in endothelial cells (ECs) and myeloid cells and inhibits inflammation, and the reduction in SHP2 activity by oxidative stress, such as in atherosclerosis or diabetes, upregulates inflammation. In contrast, in response to radiation, the fibrotic response and subsequent lung injury were increased by endothelial SHP2 induction via Notch-Jag1 signaling. Vascular smooth muscle cells SHP2 act as a pro-atherogenic effector by enhancing ERK/MAPK signaling, and the upregulation of mitochondria localized SHP2 can also induce cellular senescence-associated inflammation by upregulating mitochondrial reactive oxygen species. Taken together, the two opposite signaling effects of SHP2 suggest that both the immune and vascular system responses appear to be more modulated by the redox, cell, and compartment-specific signaling of SHP2. More studies are needed for mitigating cardiovascular toxicity to patients, particularly with ICI-based treatment regimens.",

keywords = "ICI, PD-1, PD-L1, SHP2 tyrosine phosphatase, and cardiovascular disease, cancer, oxidative stress, scaffold protein",

author = "\{L{\'o}pez Moreno\}, \{Silvia Fernanda\} and Lenz, \{Stefania Assunto\} and Bernardo Casso-Chapa and Angelica Paniagua-Bojorges and Kim, \{Jung Hyun\} and Palaskas, \{Nicolas L.\} and Nead, \{Kevin T.\} and Samanthapudi, \{Venkata S.K.\} and Gilbert Mejia and Oanh Hoang and Jonghae Lee and Lin, \{Steven H.\} and Joerg Herrmann and Guangyu Wang and Yusuf, \{Syed Wamique\} and Iliescu, \{Cezar A.\} and Beinart, \{Noah I.\} and Charlotte Manisty and Masuko Ushio-Fukai and Tohru Fukai and Pietro Ameri and Nurieva, \{Roza I.\} and Hildebrandt, \{Michelle A.T.\} and Keri Schadler and Efstratios Koutroumpakis and Sivareddy Kotla and Le, \{Nhat Tu\} and Abe, \{Jun Ichi\}",

note = "Publisher Copyright: {\textcopyright} 2025 by the authors.",

year = "2025",

month = dec,

doi = "10.3390/antiox14121388",

language = "English (US)",

volume = "14",

journal = "Antioxidants",

issn = "2076-3921",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "12",

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TY - JOUR

T1 - SHP2

T2 - A Redox-Sensitive Regulator Linking Immune Checkpoint Inhibitor Therapy to Cancer Treatment and Vascular Risk

AU - López Moreno, Silvia Fernanda

AU - Lenz, Stefania Assunto

AU - Casso-Chapa, Bernardo

AU - Paniagua-Bojorges, Angelica

AU - Kim, Jung Hyun

AU - Palaskas, Nicolas L.

AU - Nead, Kevin T.

AU - Samanthapudi, Venkata S.K.

AU - Mejia, Gilbert

AU - Hoang, Oanh

AU - Lee, Jonghae

AU - Lin, Steven H.

AU - Herrmann, Joerg

AU - Wang, Guangyu

AU - Yusuf, Syed Wamique

AU - Iliescu, Cezar A.

AU - Beinart, Noah I.

AU - Manisty, Charlotte

AU - Ushio-Fukai, Masuko

AU - Fukai, Tohru

AU - Ameri, Pietro

AU - Nurieva, Roza I.

AU - Hildebrandt, Michelle A.T.

AU - Schadler, Keri

AU - Koutroumpakis, Efstratios

AU - Kotla, Sivareddy

AU - Le, Nhat Tu

AU - Abe, Jun Ichi

PY - 2025/12

Y1 - 2025/12

N2 - Src homology 2-domain containing protein tyrosine phosphatase 2 (SHP2), encoded by the Ptpn11 gene (Tyrosine-protein phosphatase non-receptor type 11), is a key downstream effector of PD-1/PD-L1 signaling and is likely important, in addition to immune modulation, in tumor development and vascular homeostasis. SHP2 conveys PD-1 mediated inhibitory signaling in T cells, and is emerging as a therapeutic target. Importantly, there is an association between immune checkpoint inhibitors (ICIs), immune-related adverse events (irAEs), and cardiovascular complications, underscoring the need to understand SHP2’s role in these processes. This review aims to summarize current knowledge on SHP2/PTPN11 biology, its role in immune regulation, cancer progression, and vascular homeostasis, and to discuss emerging therapeutic strategies targeting this pathway. The concept of using SHP2 inhibitors with immune checkpoint inhibitors (ICIs) is being investigated to address ICI resistance and to improve anti-tumor efficacy substantially. SHP2 is also being studied in non-cancer cell contexts, and signaling responses can differ by large magnitudes depending on the biological context and stimuli. Under normal circumstances, SHP2 promotes vascular homeostasis in endothelial cells (ECs) and myeloid cells and inhibits inflammation, and the reduction in SHP2 activity by oxidative stress, such as in atherosclerosis or diabetes, upregulates inflammation. In contrast, in response to radiation, the fibrotic response and subsequent lung injury were increased by endothelial SHP2 induction via Notch-Jag1 signaling. Vascular smooth muscle cells SHP2 act as a pro-atherogenic effector by enhancing ERK/MAPK signaling, and the upregulation of mitochondria localized SHP2 can also induce cellular senescence-associated inflammation by upregulating mitochondrial reactive oxygen species. Taken together, the two opposite signaling effects of SHP2 suggest that both the immune and vascular system responses appear to be more modulated by the redox, cell, and compartment-specific signaling of SHP2. More studies are needed for mitigating cardiovascular toxicity to patients, particularly with ICI-based treatment regimens.

AB - Src homology 2-domain containing protein tyrosine phosphatase 2 (SHP2), encoded by the Ptpn11 gene (Tyrosine-protein phosphatase non-receptor type 11), is a key downstream effector of PD-1/PD-L1 signaling and is likely important, in addition to immune modulation, in tumor development and vascular homeostasis. SHP2 conveys PD-1 mediated inhibitory signaling in T cells, and is emerging as a therapeutic target. Importantly, there is an association between immune checkpoint inhibitors (ICIs), immune-related adverse events (irAEs), and cardiovascular complications, underscoring the need to understand SHP2’s role in these processes. This review aims to summarize current knowledge on SHP2/PTPN11 biology, its role in immune regulation, cancer progression, and vascular homeostasis, and to discuss emerging therapeutic strategies targeting this pathway. The concept of using SHP2 inhibitors with immune checkpoint inhibitors (ICIs) is being investigated to address ICI resistance and to improve anti-tumor efficacy substantially. SHP2 is also being studied in non-cancer cell contexts, and signaling responses can differ by large magnitudes depending on the biological context and stimuli. Under normal circumstances, SHP2 promotes vascular homeostasis in endothelial cells (ECs) and myeloid cells and inhibits inflammation, and the reduction in SHP2 activity by oxidative stress, such as in atherosclerosis or diabetes, upregulates inflammation. In contrast, in response to radiation, the fibrotic response and subsequent lung injury were increased by endothelial SHP2 induction via Notch-Jag1 signaling. Vascular smooth muscle cells SHP2 act as a pro-atherogenic effector by enhancing ERK/MAPK signaling, and the upregulation of mitochondria localized SHP2 can also induce cellular senescence-associated inflammation by upregulating mitochondrial reactive oxygen species. Taken together, the two opposite signaling effects of SHP2 suggest that both the immune and vascular system responses appear to be more modulated by the redox, cell, and compartment-specific signaling of SHP2. More studies are needed for mitigating cardiovascular toxicity to patients, particularly with ICI-based treatment regimens.

KW - ICI

KW - PD-1

KW - PD-L1

KW - SHP2 tyrosine phosphatase

KW - and cardiovascular disease

KW - cancer

KW - oxidative stress

KW - scaffold protein

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U2 - 10.3390/antiox14121388

DO - 10.3390/antiox14121388

M3 - Review article

AN - SCOPUS:105025758176

SN - 2076-3921

VL - 14

JO - Antioxidants

JF - Antioxidants

IS - 12

M1 - 1388

ER -

SHP2: A Redox-Sensitive Regulator Linking Immune Checkpoint Inhibitor Therapy to Cancer Treatment and Vascular Risk

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Keywords

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