Rapamycin sensitivity of the <i>Schizosaccharomyces pombe tor2</i> mutant and organization of two highly phosphorylated TOR complexes by specific and common subunits

Hayashi, Takeshi; Hatanaka, Mitsuko; Nagao, Koji; Nakaseko, Yukinobu; Kanoh, Junko; Kokubu, Aya; Ebe, Masahiro; Yanagida, Mitsuhiro

doi:10.1111/j.1365-2443.2007.01141.x

Cited by 175 publications

(291 citation statements)

References 53 publications

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“…Later, it was found that Tor1 is the catalytic subunit of TORC2 while Tor2 is the catalytic subunit of TORC1. TORC1 also contains the protein Mip1 (raptor in humans), and TORC2 also contains the proteins Ste20 (rictor in humans) and Sin1 (mSin1 in humans) (13)(14)(15)(16)(17)(18)(19)(20). TORC1 is essential under normal growth conditions and plays major roles in the control of cellular growth, possibly in response to nitrogen availability (17,(20)(21)(22)(23)(24)(25).…”

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confidence: 99%

Isp7 Is a Novel Regulator of Amino Acid Uptake in the TOR Signaling Pathway

Laor

Cohen

Pasmanik‐Chor

et al. 2014

Molecular and Cellular Biology

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c TOR proteins reside in two distinct complexes, TOR complexes 1 and 2 (TORC1 and TORC2), that are central for the regulation of cellular growth, proliferation, and survival. TOR is also the target for the immunosuppressive and anticancer drug rapamycin. In Schizosaccharomyces pombe, disruption of the TSC complex, mutations in which can lead to the tuberous sclerosis syndrome in humans, results in a rapamycin-sensitive phenotype under poor nitrogen conditions. We show here that the sensitivity to rapamycin is mediated via inhibition of TORC1 and suppressed by overexpression of isp7 ؉ , a member of the family of 2-oxoglutarate-Fe(II)-dependent oxygenase genes. The transcript level of isp7 ؉ is negatively regulated by TORC1 but positively regulated by TORC2. Yet we find extensive similarity between the transcriptome of cells disrupted for isp7؉ and cells mutated in the catalytic subunit of TORC1. Moreover, Isp7 regulates amino acid permease expression in a fashion similar to that of TORC1 and opposite that of TORC2. Overexpression of isp7 ؉ induces TORC1-dependent phosphorylation of ribosomal protein Rps6 while inhibiting TORC2-dependent phosphorylation and activation of the AGC-like kinase Gad8. Taken together, our findings suggest a central role for Isp7 in amino acid homeostasis and the presence of isp7 ؉ -dependent regulatory loops that affect both TORC1 and TORC2.

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confidence: 99%

Isp7 Is a Novel Regulator of Amino Acid Uptake in the TOR Signaling Pathway

Laor

Cohen

Pasmanik‐Chor

et al. 2014

Molecular and Cellular Biology

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“…Genome instability also occurs in clk-2 mutant germlines, but strong alleles lead to a late G2-like cell cycle arrest. Subsequent studies on mammalian and yeast CLK-2 orthologs, referred to as TEL2 in yeasts, established that CLK-2/TEL2 is required for the full activation of all PIKKs-type protein kinases, a class of protein kinases that includes ATM/ atm-1 and ATL-1, thus explaining checkpoint-signalling phenotypes (Hayashi et al 2007 ;Kanoh and Yanagida 2007 ;Hurov et al 2010 ;Takai et al 2010 ;Kaizuka et al 2010 ) . The current model suggests that CLK-2/TEL2 might have a chaperonlike function required for the full activation of those kinases (Horejsi et al 2010 ) .…”

Section: Upstream Dna Damage Checkpoint Signalling In the C Elegans mentioning

confidence: 99%

Germ Cell Apoptosis and DNA Damage Responses

Bailly

Gartner

2012

Advances in Experimental Medicine and Biology

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In the past 12 years, since the fi rst description of C. elegans germ cell apoptosis, this area of research rapidly expanded. It became evident that multiple genetic pathways lead to the apoptotic demise of germ cells. We are only beginning to understand how these pathways that all require the CED-9/Bcl-2, Apaf-1/CED-4 and CED-3 caspase core apoptosis components are regulated. Physiological apoptosis, which likely accounts for the elimination of more than 50% of all germ cells, even in unperturbed conditions, is likely to be required to maintain tissue homeostasis. The best-studied pathways lead to DNA damage-induced germ cell apoptosis in response to a variety of genotoxic stimuli. This apoptosis appears to be regulated similar to DNA damage-induced apoptosis in the mouse germ line and converges on p53 family transcription factors. DNA damage response pathways not only lead to apoptosis induction, but also directly affect DNA repair, and a transient cell cycle arrest of mitotic germ cells. Finally, distinct pathways activate germ cell apoptosis in response to defects in meiotic recombination and meiotic chromosome pairing.

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“…These were numbered based on their order of discovery. Later, it was found that Tor1 interacts with Ste20 (Rictor) and Sin1 to form TORC2, whereas Tor2 interacts with Mip1 (Raptor) to form TORC1 (10,11). As in human cells, S. pombe TORC1 is negatively regulated by the TSC complex (12,13).…”

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confidence: 99%

TORC2 Is Required to Maintain Genome Stability during S Phase in Fission Yeast

Schonbrun

Kolesnikov

Kupiec

et al. 2013

Journal of Biological Chemistry

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Background: TOR complex 2 (TORC2) is a conserved protein complex that regulates multiple aspects of cell survival and proliferation. Results: DNA metabolism and DNA damage response are impaired upon disruption of TORC2. Conclusion: TORC2 affects replication-associated damages, independent of checkpoint activation. Significance: TORC2 is required to maintain genome stability in fission yeast, a function that may be evolutionarily conserved.

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Rapamycin sensitivity of the Schizosaccharomyces pombe tor2 mutant and organization of two highly phosphorylated TOR complexes by specific and common subunits

Cited by 175 publications

References 53 publications

Isp7 Is a Novel Regulator of Amino Acid Uptake in the TOR Signaling Pathway

Isp7 Is a Novel Regulator of Amino Acid Uptake in the TOR Signaling Pathway

Germ Cell Apoptosis and DNA Damage Responses

TORC2 Is Required to Maintain Genome Stability during S Phase in Fission Yeast

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