p38γ and p38δ modulate innate immune response by regulating MEF2D activation

Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13 -deficient (p38γ/δKO) mice, which show low levels of TPL2, the kinase upstream of MKK1–ERK1/2 in myeloid cells. This could obscure p38γ/p38δ roles, since TPL2 is essential for regulatin...

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Published ineLife Vol. 12
Main Authors Escós, Alejandra, Diaz-Mora, Ester, Pattison, Michael, Fajardo, Pilar, González-Romero, Diego, Risco, Ana, Martín-Gómez, José, Bonneil, Éric, Sonenberg, Nahum, Jafarnejad, Seyed Mehdi, Sanz-Ezquerro, Juan José, Ley, Steven C, Cuenda, Ana
Format Journal Article
LanguageEnglish
Published England eLife Sciences Publications Ltd 17.07.2023
eLife Sciences Publications, Ltd
Subjects
Animals
Antibodies
Biochemistry and Chemical Biology
Bone marrow
Cytokines
Extracellular signal-regulated kinase
Fibroblasts
Gene expression
Immune response
Immunity, Innate
Immunology and Inflammation
Infections
Inflammation
Inflammatory bowel disease
Inflammatory diseases
Innate immunity
Kinases
Lipopolysaccharides
Macrophages
MAPK
MEF2D
Mice
Mitogen-Activated Protein Kinase 12 - genetics
Mitogen-Activated Protein Kinase 12 - metabolism
Mitogen-Activated Protein Kinase 13 - metabolism
Myeloid cells
Myocytes
p38γ
p38δ
Phosphorylation
Proteins
Proteomics
Sepsis
Septic shock
mouse
chemical biology
inflammation
biochemistry
MAPK
p38δ
MEF2D
immunology
p38γ
phosphorylation
Online AccessGet full text
ISSN2050-084X
2050-084X
DOI10.7554/eLife.86200

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Abstract Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13 -deficient (p38γ/δKO) mice, which show low levels of TPL2, the kinase upstream of MKK1–ERK1/2 in myeloid cells. This could obscure p38γ/p38δ roles, since TPL2 is essential for regulating inflammation. Here, we generated a Mapk12 D171A/D171A / Mapk13 −/− (p38γ/δKIKO) mouse, expressing kinase-inactive p38γ and lacking p38δ. This mouse exhibited normal TPL2 levels, making it an excellent tool to elucidate specific p38γ/p38δ functions. p38γ/δKIKO mice showed a reduced inflammatory response and less susceptibility to lipopolysaccharide (LPS)-induced septic shock and Candida albicans infection than wild-type (WT) mice. Gene expression analyses in LPS-activated wild-type and p38γ/δKIKO macrophages revealed that p38γ/p38δ-regulated numerous genes implicated in innate immune response. Additionally, phospho-proteomic analyses and in vitro kinase assays showed that the transcription factor myocyte enhancer factor-2D (MEF2D) was phosphorylated at Ser444 via p38γ/p38δ. Mutation of MEF2D Ser444 to the non-phosphorylatable residue Ala increased its transcriptional activity and the expression of Nos2 and Il1b mRNA. These results suggest that p38γ/p38δ govern innate immune responses by regulating MEF2D phosphorylation and transcriptional activity.
AbstractList Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13-deficient (p38γ/δKO) mice, which show low levels of TPL2, the kinase upstream of MKK1–ERK1/2 in myeloid cells. This could obscure p38γ/p38δ roles, since TPL2 is essential for regulating inflammation. Here, we generated a Mapk12D171A/D171A/Mapk13−/− (p38γ/δKIKO) mouse, expressing kinase-inactive p38γ and lacking p38δ. This mouse exhibited normal TPL2 levels, making it an excellent tool to elucidate specific p38γ/p38δ functions. p38γ/δKIKO mice showed a reduced inflammatory response and less susceptibility to lipopolysaccharide (LPS)-induced septic shock and Candida albicans infection than wild-type (WT) mice. Gene expression analyses in LPS-activated wild-type and p38γ/δKIKO macrophages revealed that p38γ/p38δ-regulated numerous genes implicated in innate immune response. Additionally, phospho-proteomic analyses and in vitro kinase assays showed that the transcription factor myocyte enhancer factor-2D (MEF2D) was phosphorylated at Ser444 via p38γ/p38δ. Mutation of MEF2D Ser444 to the non-phosphorylatable residue Ala increased its transcriptional activity and the expression of Nos2 and Il1b mRNA. These results suggest that p38γ/p38δ govern innate immune responses by regulating MEF2D phosphorylation and transcriptional activity.
Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13 -deficient (p38γ/δKO) mice, which show low levels of TPL2, the kinase upstream of MKK1–ERK1/2 in myeloid cells. This could obscure p38γ/p38δ roles, since TPL2 is essential for regulating inflammation. Here, we generated a Mapk12 D171A/D171A / Mapk13 −/− (p38γ/δKIKO) mouse, expressing kinase-inactive p38γ and lacking p38δ. This mouse exhibited normal TPL2 levels, making it an excellent tool to elucidate specific p38γ/p38δ functions. p38γ/δKIKO mice showed a reduced inflammatory response and less susceptibility to lipopolysaccharide (LPS)-induced septic shock and Candida albicans infection than wild-type (WT) mice. Gene expression analyses in LPS-activated wild-type and p38γ/δKIKO macrophages revealed that p38γ/p38δ-regulated numerous genes implicated in innate immune response. Additionally, phospho-proteomic analyses and in vitro kinase assays showed that the transcription factor myocyte enhancer factor-2D (MEF2D) was phosphorylated at Ser444 via p38γ/p38δ. Mutation of MEF2D Ser444 to the non-phosphorylatable residue Ala increased its transcriptional activity and the expression of Nos2 and Il1b mRNA. These results suggest that p38γ/p38δ govern innate immune responses by regulating MEF2D phosphorylation and transcriptional activity.
Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13-deficient (p38γ/δKO) mice, which show low levels of TPL2, the kinase upstream of MKK1-ERK1/2 in myeloid cells. This could obscure p38γ/p38δ roles, since TPL2 is essential for regulating inflammation. Here, we generated a Mapk12D171A/D171A/Mapk13-/- (p38γ/δKIKO) mouse, expressing kinase-inactive p38γ and lacking p38δ. This mouse exhibited normal TPL2 levels, making it an excellent tool to elucidate specific p38γ/p38δ functions. p38γ/δKIKO mice showed a reduced inflammatory response and less susceptibility to lipopolysaccharide (LPS)-induced septic shock and Candida albicans infection than wild-type (WT) mice. Gene expression analyses in LPS-activated wild-type and p38γ/δKIKO macrophages revealed that p38γ/p38δ-regulated numerous genes implicated in innate immune response. Additionally, phospho-proteomic analyses and in vitro kinase assays showed that the transcription factor myocyte enhancer factor-2D (MEF2D) was phosphorylated at Ser444 via p38γ/p38δ. Mutation of MEF2D Ser444 to the non-phosphorylatable residue Ala increased its transcriptional activity and the expression of Nos2 and Il1b mRNA. These results suggest that p38γ/p38δ govern innate immune responses by regulating MEF2D phosphorylation and transcriptional activity.Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13-deficient (p38γ/δKO) mice, which show low levels of TPL2, the kinase upstream of MKK1-ERK1/2 in myeloid cells. This could obscure p38γ/p38δ roles, since TPL2 is essential for regulating inflammation. Here, we generated a Mapk12D171A/D171A/Mapk13-/- (p38γ/δKIKO) mouse, expressing kinase-inactive p38γ and lacking p38δ. This mouse exhibited normal TPL2 levels, making it an excellent tool to elucidate specific p38γ/p38δ functions. p38γ/δKIKO mice showed a reduced inflammatory response and less susceptibility to lipopolysaccharide (LPS)-induced septic shock and Candida albicans infection than wild-type (WT) mice. Gene expression analyses in LPS-activated wild-type and p38γ/δKIKO macrophages revealed that p38γ/p38δ-regulated numerous genes implicated in innate immune response. Additionally, phospho-proteomic analyses and in vitro kinase assays showed that the transcription factor myocyte enhancer factor-2D (MEF2D) was phosphorylated at Ser444 via p38γ/p38δ. Mutation of MEF2D Ser444 to the non-phosphorylatable residue Ala increased its transcriptional activity and the expression of Nos2 and Il1b mRNA. These results suggest that p38γ/p38δ govern innate immune responses by regulating MEF2D phosphorylation and transcriptional activity.
Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using -deficient (p38γ/δKO) mice, which show low levels of TPL2, the kinase upstream of MKK1-ERK1/2 in myeloid cells. This could obscure p38γ/p38δ roles, since TPL2 is essential for regulating inflammation. Here, we generated a / (p38γ/δKIKO) mouse, expressing kinase-inactive p38γ and lacking p38δ. This mouse exhibited normal TPL2 levels, making it an excellent tool to elucidate specific p38γ/p38δ functions. p38γ/δKIKO mice showed a reduced inflammatory response and less susceptibility to lipopolysaccharide (LPS)-induced septic shock and infection than wild-type (WT) mice. Gene expression analyses in LPS-activated wild-type and p38γ/δKIKO macrophages revealed that p38γ/p38δ-regulated numerous genes implicated in innate immune response. Additionally, phospho-proteomic analyses and in vitro kinase assays showed that the transcription factor myocyte enhancer factor-2D (MEF2D) was phosphorylated at Ser444 via p38γ/p38δ. Mutation of MEF2D Ser444 to the non-phosphorylatable residue Ala increased its transcriptional activity and the expression of and mRNA. These results suggest that p38γ/p38δ govern innate immune responses by regulating MEF2D phosphorylation and transcriptional activity.
Author Bonneil, Éric
Martín-Gómez, José
Ley, Steven C
Diaz-Mora, Ester
Risco, Ana
Jafarnejad, Seyed Mehdi
Sanz-Ezquerro, Juan José
Cuenda, Ana
Sonenberg, Nahum
Pattison, Michael
González-Romero, Diego
Escós, Alejandra
Fajardo, Pilar
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/37458356$$D View this record in MEDLINE/PubMed
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CitedBy_id crossref_primary_10_1016_j_heliyon_2024_e35940
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Keywords mouse
chemical biology
inflammation
biochemistry
MAPK
p38δ
MEF2D
immunology
p38γ
phosphorylation
Language English
License 2023, Escós, Diaz-Mora et al.
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Snippet Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13 -deficient (p38γ/δKO) mice, which show low...
Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using -deficient (p38γ/δKO) mice, which show low levels of TPL2,...
Evidence implicating p38γ and p38δ (p38γ/p38δ) in inflammation are mainly based on experiments using Mapk12/Mapk13-deficient (p38γ/δKO) mice, which show low...
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SubjectTerms Animals
Antibodies
Biochemistry and Chemical Biology
Bone marrow
Cytokines
Extracellular signal-regulated kinase
Fibroblasts
Gene expression
Immune response
Immunity, Innate
Immunology and Inflammation
Infections
Inflammation
Inflammatory bowel disease
Inflammatory diseases
Innate immunity
Kinases
Lipopolysaccharides
Macrophages
MAPK
MEF2D
Mice
Mitogen-Activated Protein Kinase 12 - genetics
Mitogen-Activated Protein Kinase 12 - metabolism
Mitogen-Activated Protein Kinase 13 - metabolism
Myeloid cells
Myocytes
p38γ
p38δ
Phosphorylation
Proteins
Proteomics
Sepsis
Septic shock
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Title p38γ and p38δ modulate innate immune response by regulating MEF2D activation
URI https://www.ncbi.nlm.nih.gov/pubmed/37458356
https://www.proquest.com/docview/2859542813
https://www.proquest.com/docview/2839247675
https://pubmed.ncbi.nlm.nih.gov/PMC10400073
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Volume 12
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