Your search keyword '"T-Cell Intracellular Antigen-1"' showing total 6 results

1. Inhibition of Axon Regeneration by Liquid-like TIAR-2 Granules.

Author

Andrusiak, Matthew G, Andrusiak, Matthew G, Sharifnia, Panid, Lyu, Xiaohui, Wang, Zhiping, Dickey, Andrea M, Wu, Zilu, Chisholm, Andrew D, Jin, Yishi, Andrusiak, Matthew G, Andrusiak, Matthew G, Sharifnia, Panid, Lyu, Xiaohui, Wang, Zhiping, Dickey, Andrea M, Wu, Zilu, Chisholm, Andrew D, and Jin, Yishi

Abstract

Phase separation into liquid-like compartments is an emerging property of proteins containing prion-like domains (PrLDs), yet the in vivo roles of phase separation remain poorly understood. TIA proteins contain a C-terminal PrLD, and mutations in the PrLD are associated with several diseases. Here, we show that the C. elegans TIAR-2/TIA protein functions cell autonomously to inhibit axon regeneration. TIAR-2 undergoes liquid-liquid phase separation in vitro and forms granules with liquid-like properties in vivo. Axon injury induces a transient increase in TIAR-2 granule number. The PrLD is necessary and sufficient for granule formation and inhibiting regeneration. Tyrosine residues within the PrLD are important for granule formation and inhibition of regeneration. TIAR-2 is also serine phosphorylated in vivo. Non-phosphorylatable TIAR-2 variants do not form granules and are unable to inhibit axon regeneration. Our data demonstrate an in vivo function for phase-separated TIAR-2 and identify features critical for its function in axon regeneration.

Published

2019

2. No supportive evidence for TIA1 gene mutations in a European cohort of ALS-FTD spectrum patients.

Author

UCL - SSS/IONS/NEUR - Clinical Neuroscience, UCL - (SLuc) Service de neurologie, Baradaran-Heravi, Yalda, Dillen, Lubina, Nguyen, Hung Phuoc, Van Mossevelde, Sara, Baets, Jonathan, De Jonghe, Peter, Engelborghs, Sebastiaan, De Deyn, Peter P, Vandenbulcke, Mathieu, Vandenberghe, Rik, Van Damme, Philip, Cras, Patrick, Salmon, Eric, Synofzik, Matthis, Heutink, Peter, Wilke, Carlo, Simon-Sanchez, Javier, Rojas-Garcia, Ricard, Turon-Sans, Janina, Lleó, Alberto, Illán-Gala, Ignacio, Clarimón, Jordi, Borroni, Barbara, Padovani, Alessandro, Pastor, Pau, Diez-Fairen, Monica, Aguilar, Miquel, Gelpi, Ellen, Sanchez-Valle, Raquel, Borrego-Ecija, Sergi, Matej, Radoslav, Parobkova, Eva, Nacmias, Benedetta, Sorbi, Sandro, Bagnoli, Silvia, de Mendonça, Alexandre, Ferreira, Catarina, Fraidakis, Matthew J, Diehl-Schmid, Janine, Alexopoulos, Panagiotis, Almeida, Maria Rosário, Santana, Isabel, Van Broeckhoven, Christine, van der Zee, Julie, BELNEU Consortium, EU EOD Consortium, Ivanoiu, Adrian, UCL - SSS/IONS/NEUR - Clinical Neuroscience, UCL - (SLuc) Service de neurologie, Baradaran-Heravi, Yalda, Dillen, Lubina, Nguyen, Hung Phuoc, Van Mossevelde, Sara, Baets, Jonathan, De Jonghe, Peter, Engelborghs, Sebastiaan, De Deyn, Peter P, Vandenbulcke, Mathieu, Vandenberghe, Rik, Van Damme, Philip, Cras, Patrick, Salmon, Eric, Synofzik, Matthis, Heutink, Peter, Wilke, Carlo, Simon-Sanchez, Javier, Rojas-Garcia, Ricard, Turon-Sans, Janina, Lleó, Alberto, Illán-Gala, Ignacio, Clarimón, Jordi, Borroni, Barbara, Padovani, Alessandro, Pastor, Pau, Diez-Fairen, Monica, Aguilar, Miquel, Gelpi, Ellen, Sanchez-Valle, Raquel, Borrego-Ecija, Sergi, Matej, Radoslav, Parobkova, Eva, Nacmias, Benedetta, Sorbi, Sandro, Bagnoli, Silvia, de Mendonça, Alexandre, Ferreira, Catarina, Fraidakis, Matthew J, Diehl-Schmid, Janine, Alexopoulos, Panagiotis, Almeida, Maria Rosário, Santana, Isabel, Van Broeckhoven, Christine, van der Zee, Julie, BELNEU Consortium, EU EOD Consortium, and Ivanoiu, Adrian

Abstract

We evaluated the genetic contribution of the T cell-restricted intracellular antigen-1 gene (TIA1) in a European cohort of frontotemporal dementia (FTD) and amyotrophic lateral sclerosis (ALS) patients. Exonic resequencing of TIA1 in 1120 patients (693 FTD, 341 ALS, 86 FTD-ALS) and 1039 controls identified in total 5 rare heterozygous missense variants, affecting the TIA1 low-complexity domain (LCD). Only 1 missense variant, p.Met290Thr, identified in a familial FTD patient with disease onset at 64 years, was absent from controls yet received a combined annotation-dependent depletion score of 11.42. By contrast, 3 of the 4 variants also detected in unaffected controls, p.Val294Glu, p.Gln318Arg, and p.Ala381Thr, had combined annotation-dependent depletion scores greater than 20. Our findings in a large European patient-control series indicate that variants in TIA1 are not a common cause of ALS and FTD. The observation of recurring TIA1 missense variants in unaffected individuals lead us to conclude that the exact genetic contribution of TIA1 to ALS and FTD pathogenesis remains to be further elucidated.

Published

2018

3. TIA1 Mutations in Amyotrophic Lateral Sclerosis and Frontotemporal Dementia Promote Phase Separation and Alter Stress Granule Dynamics.

Author

Mackenzie, Ian R., Nicholson, Alexandra M., Sarkar, Mohona, Messing, James, Purice, Maria D., Pottier, Cyril, Annu, Kavya, Baker, Matt, Perkerson, Ralph B., Kurti, Aishe, Matchett, Billie J., Mittag, Tanja, Temirov, Jamshid, Hsiung, Ging-Yuek R., Krieger, Charles, Murray, Melissa E., Kato, Masato, Fryer, John D., Petrucelli, Leonard, Zinman, Lorne, Weintraub, Sandra, Mesulam, Marsel, Keith, Julia, Zivkovic, Sasha A., Hirsch-Reinshagen, Veronica, Roos, Raymond P., Züchner, Stephan, Graff-Radford, Neill R., Petersen, Ronald C., Caselli, Richard J., Wszolek, Zbigniew K., Finger, Elizabeth, Lippa, Carol, Lacomis, David, Stewart, Heather, Dickson, Dennis W., Kim, Hong Joo, Rogaeva, Ekaterina, Bigio, Eileen, Boylan, Kevin B., Taylor, J. Paul, Rademakers, Rosa, Mackenzie, Ian R., Nicholson, Alexandra M., Sarkar, Mohona, Messing, James, Purice, Maria D., Pottier, Cyril, Annu, Kavya, Baker, Matt, Perkerson, Ralph B., Kurti, Aishe, Matchett, Billie J., Mittag, Tanja, Temirov, Jamshid, Hsiung, Ging-Yuek R., Krieger, Charles, Murray, Melissa E., Kato, Masato, Fryer, John D., Petrucelli, Leonard, Zinman, Lorne, Weintraub, Sandra, Mesulam, Marsel, Keith, Julia, Zivkovic, Sasha A., Hirsch-Reinshagen, Veronica, Roos, Raymond P., Züchner, Stephan, Graff-Radford, Neill R., Petersen, Ronald C., Caselli, Richard J., Wszolek, Zbigniew K., Finger, Elizabeth, Lippa, Carol, Lacomis, David, Stewart, Heather, Dickson, Dennis W., Kim, Hong Joo, Rogaeva, Ekaterina, Bigio, Eileen, Boylan, Kevin B., Taylor, J. Paul, and Rademakers, Rosa

Abstract

Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) are age-related neurodegenerative disorders with shared genetic etiologies and overlapping clinical and pathological features. Here we studied a novel ALS/FTD family and identified the P362L mutation in the low-complexity domain (LCD) of T cell-restricted intracellular antigen-1 (TIA1). Subsequent genetic association analyses showed an increased burden of TIA1 LCD mutations in ALS patients compared to controls (p = 8.7 × 10

Published

2017

4. Tumor-promoting function and prognostic significance of the RNA-binding protein T-cell intracellular antigen-1 in esophageal squamous cell carcinoma.

Author

Hamada, Junichi, Shoda, Katsutoshi, Masuda, Kiyoshi, Fujita, Yuji, Naruto, Takuya, Kohmoto, Tomohiro, Miyakami, Yuko, Watanabe, Miki, Kudo, Yasusei, Fujiwara, Hitoshi, Ichikawa, Daisuke, Otsuji, Eigo, Imoto, Issei, Hamada, Junichi, Shoda, Katsutoshi, Masuda, Kiyoshi, Fujita, Yuji, Naruto, Takuya, Kohmoto, Tomohiro, Miyakami, Yuko, Watanabe, Miki, Kudo, Yasusei, Fujiwara, Hitoshi, Ichikawa, Daisuke, Otsuji, Eigo, and Imoto, Issei

Abstract

T-cell intracellular antigen-1 (TIA1) is an RNA-binding protein involved in many regulatory aspects of mRNA metabolism. Here, we report previously unknown tumor-promoting activity of TIA1, which seems to be associated with its isoform-specific molecular distribution and regulation of a set of cancer-related transcripts, in esophageal squamous cell carcinoma (ESCC). Immunohistochemical overexpression of TIA1 ectopically localized in the cytoplasm of tumor cells was an independent prognosticator for worse overall survival in a cohort of 143 ESCC patients. Knockdown of TIA1 inhibited proliferation of ESCC cells. By exogenously introducing each of two major isoforms, TIA1a and TIA1b, only TIA1a, which was localized to both the nucleus and cytoplasm, promoted anchorage-dependent and anchorage-independent ESCC cell proliferation. Ribonucleoprotein immunoprecipitation, followed by microarray analysis or massive-parallel sequencing, identified a set of TIA1-binding mRNAs, including SKP2 and CCNA2. TIA1 increased SKP2 and CCNA2 protein levels through the suppression of mRNA decay and translational induction, respectively. Our findings uncover a novel oncogenic function of TIA1 in esophageal tumorigenesis, and implicate its use as a marker for prognostic evaluation and as a therapeutic target in ESCC.

Published

2016

5. Poliovirus infection induces the co-localization of cellular protein SRp20 with TIA-1, a cytoplasmic stress granule protein.

Author

Fitzgerald, Kerry D, Fitzgerald, Kerry D, Semler, Bert L, Fitzgerald, Kerry D, Fitzgerald, Kerry D, and Semler, Bert L

Abstract

Different types of environmental stress cause mammalian cells to form cytoplasmic foci, termed stress granules, which contain mRNPs that are translationally silenced. These foci are transient and dynamic, and contain components of the cellular translation machinery as well as certain mRNAs and RNA binding proteins. Stress granules are known to be induced by conditions such as hypoxia, nutrient deprivation, and oxidative stress, and a number of cellular factors have been identified that are commonly associated with these foci. More recently it was discovered that poliovirus infection also induces the formation of stress granules, although these cytoplasmic foci appear to be somewhat compositionally unique. Work described here examined the punctate pattern of SRp20 (a host cell mRNA splicing protein) localization in the cytoplasm of poliovirus-infected cells, demonstrating the partial co-localization of SRp20 with the stress granule marker protein TIA-1. We determined that SRp20 does not co-localize with TIA-1, however, under conditions of oxidative stress, indicating that the close association of these two proteins during poliovirus infection is not representative of a general response to cellular stress. We confirmed that the expression of a dominant negative version of TIA-1 (TIA-1-PRD) results in the dissociation of stress granules. Finally, we demonstrated that expression of wild type TIA-1 or dominant negative TIA-1-PRD in cells during poliovirus infection does not dramatically affect viral translation. Taken together, these studies provide a new example of the unique cytoplasmic foci that form during poliovirus infection.

Published

2013

6. Poliovirus infection induces the co-localization of cellular protein SRp20 with TIA-1, a cytoplasmic stress granule protein.

Author

Fitzgerald, Kerry D, Fitzgerald, Kerry D, Semler, Bert L, Fitzgerald, Kerry D, Fitzgerald, Kerry D, and Semler, Bert L

Abstract

Different types of environmental stress cause mammalian cells to form cytoplasmic foci, termed stress granules, which contain mRNPs that are translationally silenced. These foci are transient and dynamic, and contain components of the cellular translation machinery as well as certain mRNAs and RNA binding proteins. Stress granules are known to be induced by conditions such as hypoxia, nutrient deprivation, and oxidative stress, and a number of cellular factors have been identified that are commonly associated with these foci. More recently it was discovered that poliovirus infection also induces the formation of stress granules, although these cytoplasmic foci appear to be somewhat compositionally unique. Work described here examined the punctate pattern of SRp20 (a host cell mRNA splicing protein) localization in the cytoplasm of poliovirus-infected cells, demonstrating the partial co-localization of SRp20 with the stress granule marker protein TIA-1. We determined that SRp20 does not co-localize with TIA-1, however, under conditions of oxidative stress, indicating that the close association of these two proteins during poliovirus infection is not representative of a general response to cellular stress. We confirmed that the expression of a dominant negative version of TIA-1 (TIA-1-PRD) results in the dissociation of stress granules. Finally, we demonstrated that expression of wild type TIA-1 or dominant negative TIA-1-PRD in cells during poliovirus infection does not dramatically affect viral translation. Taken together, these studies provide a new example of the unique cytoplasmic foci that form during poliovirus infection.

Published

2013