Eri Sasaki scite author profile

The serine/threonine kinase mTOR forms two distinct complexes, mTORC1 and mTORC2, and controls a number of biological processes, including proliferation, survival and autophagy. Although the function of mTORC1 has been extensively studied, the mTORC2 signaling pathway largely remains to be elucidated. Here, we have shown that mTORC2 phosphorylates filamin A, an actin cross-linking protein, at serine 2152 (S2152) both in vivo and in living cells. Treatment of HeLa cells with Torin1 (an mTORC1/mTORC2 inhibitor), but not rapamycin (an mTORC1 inhibitor), suppressed the phosphorylation of filamin A, which decreased the binding of filamin A with b7-integrin cytoplasmic tail. Torin1 also inhibited focal adhesion formation and cell migration in A7 filamin A-replete melanoma cells but not in M2 filamin A-deficient cells, suggesting a pivotal role for mTORC2 in filamin A function. Finally, reduced focal adhesion formation in M2 cells was significantly rescued by expressing wild type but not S2152A nonphosphorylatable mutant of filamin A. Taken together, our results indicate that mTORC2 regulates filamin A-dependent focal adhesions and cell migration.

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Development of Potent Myostatin Inhibitory Peptides through Hydrophobic Residue-Directed Structural Modification

Takayama

Rentier

Asari

et al. 2017

ACS Med. Chem. Lett.

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Myostatin, a negative regulator of skeletal muscle growth, is a promising target for treating muscle atrophic disorders. Recently, we discovered a minimal myostatin inhibitor (WRQNTRYSRIEAIKIQILSKLRL-amide) derived from positions 21-43 of the mouse myostatin prodomain. We previously identified key residues (N-terminal Trp, rodent-specific Tyr, and all aliphatic amino acids) required for effective inhibition through structure-activity relationship (SAR) studies based on and characterized a 3-fold more potent inhibitor bearing a 2-naphthyloxyacetyl group at position 21. Herein, we performed -based SAR studies focused on all aliphatic residues and Ala, discovering that the incorporations of Trp and Ile at positions 32 and 38, respectively, enhanced the inhibitory activity. Combining these findings with , a novel peptide displayed an IC value of 0.32 μM, which is 11 times more potent than . The peptide would have the potential to be a promising drug lead to develop better peptidomimetics.

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Chain-Shortened Myostatin Inhibitory Peptides Improve Grip Strength in Mice

Takayama

Asari

Saitoh

et al. 2019

ACS Med. Chem. Lett.

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Inhibition of myostatin is a promising strategy for treatment of muscle atrophic disorders. We had already identified a 23mer peptide (1) as a synthetic myostatin inhibitor, and structure− activity relationship studies with 1 afforded a potent 22-mer peptide derivative (3). Herein, we report the shortest myostatin inhibitory peptide so far. Among chain-shortened 16-mer peptidic inhibitors derived from the C-terminal region of 3, peptide inhibitor 8a with βsheet propensity was twice as potent as 22-mer inhibitor 3 and significantly increased not only muscle mass but also hind limb grip strength in Duchenne muscular dystrophic model mice. These results suggest that 8a is a promising platform for drug development treating muscle atrophic disorders.

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Graphiumins, new thiodiketopiperazines from the marine-derived fungus Graphium sp. OPMF00224

et al. 2015

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Eight new thiodiketopiperazines, designated as graphiumins A to H (1-8), were isolated along with bisdethiobis(methylthio)-deacetylaranotin (9) and bisdethiobis(methylthio)-deacetylapoaranotin (10) from the culture broth of the marine-derived fungus Graphium sp. OPMF00224. The structures of the graphiumins were elucidated based on spectroscopic analyses (1D and 2D NMR data, ROESY correlations and CD data) and chemical methods. The absolute configuration of the common (3S)-3-hydroxy-octanoyl acid residue in 1, 3 and 4 was determined by hydrolysis, benzoyl derivatization and HPLC analysis using a chiral column. Five graphiumins moderately inhibited yellow pigment production by methicillin-resistant Staphylococcus aureus.

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PMO Delivery System Using Bubble Liposomes and Ultrasound Exposure for Duchenne Muscular Dystrophy Treatment

Negishi

Ishii

Nirasawa

et al. 2017

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Duchenne muscular dystrophy (DMD) is a genetic disorder characterized by progressive muscle degeneration, caused by nonsense or frameshift mutations in the dystrophin (DMD) gene. Antisense oligonucleotides can be used to induce specific exon skipping; recently, a phosphorodiamidate morpholino oligomer (PMO) has been approved for clinical use in DMD. However, an efficient PMO delivery strategy is required to improve the therapeutic efficacy in DMD patients. We previously developed polyethylene glycol (PEG)-modified liposomes containing ultrasound contrast gas, "Bubble liposomes" (BLs), and found that the combination of BLs with ultrasound exposure is a useful gene delivery tool. Here, we describe an efficient PMO delivery strategy using the combination of BLs and ultrasound exposure to treat muscles in a DMD mouse model (mdx). This ultrasound-mediated BL technique can increase the PMO-mediated exon-skipping efficiency, leading to significantly increased dystrophin expression. Thus, the combination of BLs and ultrasound exposure may be a feasible PMO delivery method to improve therapeutic efficacy and reduce the PMO dosage for DMD treatment.

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Eri Sasaki

Mammalian target of rapamycin (mTOR) complex 2 regulates filamin A‐dependent focal adhesion dynamics and cell migration

Development of Potent Myostatin Inhibitory Peptides through Hydrophobic Residue-Directed Structural Modification

Chain-Shortened Myostatin Inhibitory Peptides Improve Grip Strength in Mice

Graphiumins, new thiodiketopiperazines from the marine-derived fungus Graphium sp. OPMF00224

PMO Delivery System Using Bubble Liposomes and Ultrasound Exposure for Duchenne Muscular Dystrophy Treatment

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