Signals Delivered By Interleukin-7 Regulate The Activities Of Bim And Jund In T Lymphocytes

Ruppert, Shannon Moore

01 January 2012

Interleukin-7 (IL-7) is an essential cytokine for lymphocyte growth that has the potential for promoting proliferation and survival. While the survival and proliferative functions of IL-7 are well established, the identities of IL-7 signaling components in pathways other than JAK/STAT, that accomplish these tasks remain poorly defined. To this end, we used IL-7 dependent T-cells to examine those components necessary for cell growth and survival. Our studies revealed two novel signal transducers of the IL-7 growth signal: BimL and JunD. IL-7 promoted the activity of JNK (Jun N-terminal Kinase), and that JNK, in turn, drove the expression of JunD, a component of the Activating Protein 1 (AP-1) transcription factors. Inhibition of JNK/JunD blocked glucose uptake and HXKII gene expression, indicating that this pathway was responsible for promoting HXKII expression. After a bioinformatics survey to reveal possible JunD-regulated genes activated early in the IL-7 signaling cascade, our search revealed that JunD could control the expression of proteins involved in signal transduction, cell survival and metabolism, including Pim-1. Pim-1, an IL-7 induced protein, was inhibited upon JNK or JunD inhibition. Our hypothesis that JunD positively regulated proliferation was confirmed when the proliferation of primary CD8+ T-cells cultured with IL-7 was impaired upon treatment with JunD siRNA. These results show that the IL-7 signal is more complex than the JAK/STAT pathway, activating JNK and JunD to induce rapid growth through the expression of metabolic factors like HXKII and Pim-1. When metabolic activities are inhibited, cells undergo autophagy, or cell scavenging, to provide essential nutrients. Pro-apoptotic Bim was evaluated for its involvement in autophagy. Bim is a BH3-only member of the Bcl-2 family that contributes to T-cell death. Partial rescue of iv T-cells occurs when Bim and the interleukin-7 receptor are deleted, implicating Bim in IL-7- deprived T-cell apoptosis. Alternative splicing results in three different isoforms: BimEL, BimL, and BimS. To study the effect of Bim deficiency and define the function of the major isoforms, Bim-containing and Bim-deficient T-cells, dependent on IL-7 for growth, were used. Loss of Bim in IL-7-deprived T-cells delayed apoptosis, but blocked the degradative phase of autophagy. The conversion of LC3-I to LC3-II was observed in Bim-deficient T-cells, but p62, which is degraded in autolysosomes, accumulated. To explain this, BimL, was found to support acidification of lysosomes associated with autophagic vesicles. Key findings showed that inhibition of lysosomal acidification accelerated death upon IL-7 withdrawal only in Bimcontaining T-cells, indicating that in these cells autophagy was protective. IL-7 dependent Tcells lacking Bim were insensitive to inhibition of autophagy or lysosomal acidification. BimL co-immunoprecipitated with dynein and Lamp1-containing vesicles, indicating BimL could be an adaptor for dynein to facilitate loading of lysosomes. In Bim deficient T-cells, lysosometracking probes revealed vesicles of less acidic pH. Over-expression of BimL restored acidic vesicles in Bim deficient T-cells, while other isoforms, BimEL and BimS, associated with intrinsic cell death. These results reveal a novel role for BimL in lysosomal positioning that may be required for the formation of functional autolysosomes during autophagy

Apoptosis

Bioinformatics

Cellular signal transduction

Gene expression

Interleukins

T cells

Autophagy

Glucose

Hexokinase

Interleukin 7

Lysosomes

Protein isoforms

Transcription Factor AP 1

Molecular Biology

Identification of New, Functionally Relevant Mutations in the Coding Regions of the Human Fos and Jun Proto-Oncogenes in Rheumatoid Arthritis Synovial Tissue

Huber, René, Augsten, Sandra, Kirsten, Holger, Zell, Roland, Stelzner, Axel, Thude, Hansjörg, Eidner, Thorsten, Stuhlmüller, Bruno, Ahnert, Peter, Kinne, Raimund W.

18 April 2023

In rheumatoid arthritis (RA), the expression of many pro-destructive/pro-inflammatory proteins depends on the transcription factor AP-1. Therefore, our aim was to analyze the presence and functional relevance of mutations in the coding regions of the AP-1 subunits of the fos and jun family in peripheral blood (PB) and synovial membranes (SM) of RA and osteoarthritis patients (OA, disease control), as well as normal controls (NC). Using the non-isotopic RNAse cleavage assay, one known polymorphism (T252C: silent; rs1046117; present in RA, OA, and NC) and three novel germline mutations of the cfos gene were detected: (i) C361G/A367G: Gln121Glu/Ile123Val, denoted as “fos121/123”; present only in one OA sample; (ii) G374A: Arg125Lys, “fos125”; and (iii) C217A/G374A: Leu73Met/Arg125Lys, “fos73/125”, the latter two exclusively present in RA. In addition, three novel somatic cjun mutations (604–606ΔCAG: ΔGln202, “jun202”; C706T: Pro236Ser, “jun236”; G750A: silent) were found exclusively in the RA SM. Tansgenic expression of fos125 and fos73/125 mutants in NIH-3T3 cells induced an activation of reporter constructs containing either the MMP-1 (matrix metalloproteinase) promoter (3- and 4-fold, respectively) or a pentameric AP-1 site (approximately 5-fold). Combined expression of these two cfos mutants with cjun wildtype or mutants (jun202, jun236) further enhanced reporter expression of the pentameric AP-1 construct. Finally, genotyping for the novel functionally relevant germline mutations in 298 RA, 288 OA, and 484 NC samples revealed no association with RA. Thus, functional cfos/cjun mutants may contribute to local joint inflammation/destruction in selected patients with RA by altering the transactivation capacity of AP-1 complexes.

info:eu-repo/classification/ddc/570

ddc:570

"Determinação do perfil de expressão dos RNAs mensageiros da família das Smads e dos componentes do complexo AP-1 em carcinoma de célula escamosa de cabeça e pescoço" / Smads and AP-1 messenger RNA expression pattern in Head and Neck Squamous Cell Carcinoma

Mangone, Flavia Regina Rotea

28 March 2005

A expressão de Smads e de membros da família AP1/ jun-fos podem refletir alterações da via de TGFb, uma via importante para o câncer epidermóide de cabeça e pescoço (HNSCC). Encontramos expressão aumentada dos mRNAs das Smads1-8 em HNSCC em comparação com tecido normal adjacente, por RPA. Além disso, as curvas de sobrevida de Kaplan Meier e a análise multivariada mostraram que a Smad6+ parece ser um fator determinante de bom prognóstico em HNSCC. Quanto a família AP-1, mensurado por Northern blot, somente Fra-1 mostrou-se aumentado no tumor e associado à presença de linfonodos comprometidos. Nossos dados sugerem que a positividade de Smad6 possa ser marcador de bom prognóstico em HNSCC / Smad and AP1 messenger RNA expression may underlie disruptions affecting TGFb signaling in head and neck squamous cell carcinoma (HNSCC). Analysis of Smads1-8 mRNA expression by RPA has shown Smad expression is globally increased in tumor as compared to adjacent normal tissue. Kaplan Meier survival curves and multivariate analysis revealed that Smad6 positivity in tumor was an independent good prognostic factor in HNSCC. In relation to AP-1, as measured by Northern blot, only Fra-1 was overexpressed in tumor and directly related to the presence of lymph node involvement. Our data suggest that Smad6 may be a marker of good prognosis in HNSCC

BLOTTING NORTHERN/methods

CARCINOMA SQUAMOUS CELL/physiopathology

FATOR DE CRESCIMENTO TRANSFORMADOR BETA

FATORES DE TRANSCRIÇÃO

FATORES DE TRANSCRIÇÃO AP 1

HEAD AND NECK NEOPLASM/physiopathology

NORTHERN BLOTTING/métodos

NUCLEASE PROTECTION ASSAYS/methods

RNA MENSAGEIRO

RNA MESSENGER

TRANSCRIPTION FACTOR AP 1

TRANSCRIPTION FACTORS

TRANSFORMING GROWTH FACTOR BETA

"Determinação do perfil de expressão dos RNAs mensageiros da família das Smads e dos componentes do complexo AP-1 em carcinoma de célula escamosa de cabeça e pescoço" / Smads and AP-1 messenger RNA expression pattern in Head and Neck Squamous Cell Carcinoma

Flavia Regina Rotea Mangone

28 March 2005

A expressão de Smads e de membros da família AP1/ jun-fos podem refletir alterações da via de TGFb, uma via importante para o câncer epidermóide de cabeça e pescoço (HNSCC). Encontramos expressão aumentada dos mRNAs das Smads1-8 em HNSCC em comparação com tecido normal adjacente, por RPA. Além disso, as curvas de sobrevida de Kaplan Meier e a análise multivariada mostraram que a Smad6+ parece ser um fator determinante de bom prognóstico em HNSCC. Quanto a família AP-1, mensurado por Northern blot, somente Fra-1 mostrou-se aumentado no tumor e associado à presença de linfonodos comprometidos. Nossos dados sugerem que a positividade de Smad6 possa ser marcador de bom prognóstico em HNSCC / Smad and AP1 messenger RNA expression may underlie disruptions affecting TGFb signaling in head and neck squamous cell carcinoma (HNSCC). Analysis of Smads1-8 mRNA expression by RPA has shown Smad expression is globally increased in tumor as compared to adjacent normal tissue. Kaplan Meier survival curves and multivariate analysis revealed that Smad6 positivity in tumor was an independent good prognostic factor in HNSCC. In relation to AP-1, as measured by Northern blot, only Fra-1 was overexpressed in tumor and directly related to the presence of lymph node involvement. Our data suggest that Smad6 may be a marker of good prognosis in HNSCC

FATOR DE CRESCIMENTO TRANSFORMADOR BETA

FATORES DE TRANSCRIÇÃO

FATORES DE TRANSCRIÇÃO AP 1

NORTHERN BLOTTING/métodos

RNA MENSAGEIRO

BLOTTING NORTHERN/methods

CARCINOMA SQUAMOUS CELL/physiopathology

HEAD AND NECK NEOPLASM/physiopathology

NUCLEASE PROTECTION ASSAYS/methods

RNA MESSENGER

TRANSCRIPTION FACTOR AP 1

TRANSCRIPTION FACTORS

TRANSFORMING GROWTH FACTOR BETA