Yumeng Song scite author profile

SummaryHypertrophic cardiomyopathy (HCM) is the most common cause of sudden cardiac death in young individuals. A potential role of mtDNA mutations in HCM is known. However, the underlying molecular mechanisms linking mtDNA mutations to HCM remain poorly understood due to lack of cell and animal models. Here, we generated induced pluripotent stem cell-derived cardiomyocytes (HCM-iPSC-CMs) from human patients in a maternally inherited HCM family who carry the m.2336T>C mutation in the mitochondrial 16S rRNA gene (MT-RNR2). The results showed that the m.2336T>C mutation resulted in mitochondrial dysfunctions and ultrastructure defects by decreasing the stability of 16S rRNA, which led to reduced levels of mitochondrial proteins. The ATP/ADP ratio and mitochondrial membrane potential were also reduced, thereby elevating the intracellular Ca2+ concentration, which was associated with numerous HCM-specific electrophysiological abnormalities. Our findings therefore provide an innovative insight into the pathogenesis of maternally inherited HCM.

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Drugging the catalytically inactive state of RET kinase in RET-rearranged tumors

Plenker

Riedel

Brägelmann

et al. 2017

Sci. Transl. Med.

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Oncogenic fusion events have been identified in a broad range of tumors. Among them, RET rearrangements represent distinct and potentially druggable targets that are recurrently found in lung adenocarcinomas. Here, we provide further evidence that current anti-RET drugs may not be potent enough to induce durable responses in such tumors. We report that potent inhibitors such as AD80 or ponatinib that stably bind in the DFG-out conformation of RET may overcome these limitations and selectively kill RET-rearranged tumors. Using chemical genomics in conjunction with phosphoproteomic analyses in RET-rearranged cells we identify the CCDC6-RETI788N mutation and drug-induced MAPK pathway reactivation as possible mechanisms, by which tumors may escape the activity of RET inhibitors. Our data provide mechanistic insight into the druggability of RET kinase fusions that may be of help for the development of effective therapies targeting such tumors.

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The novel mitochondrial 16S rRNA 2336T>C mutation is associated with hypertrophic cardiomyopathy

Liu

Song

et al. 2013

J Med Genet

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BackgroundHypertrophic cardiomyopathy (HCM) is a primary disorder characterised by asymmetric thickening of septum and left ventricular wall, with a prevalence of 0.2% in the general population.ObjectiveTo describe a novel mitochondrial DNA mutation and its association with the pathogenesis of HCM.Methods and resultsAll maternal members of a Chinese family with maternally transmitted HCM exhibited variable severity and age at onset, and were implanted permanent pacemakers due to complete atrioventricular block (AVB). Nuclear gene screening (MYH7, MYBPC3, TNNT2 and TNNI3) was performed, and no potential pathogenic mutation was identified. Mitochondrial DNA sequencing analysis identified a novel homoplasmic 16S rRNA 2336T>C mutation. This mutation was exclusively present in maternal members and absent in non-maternal members. Conservation index by comparison to 16 other vertebrates was 94.1%. This mutation disturbs the 2336U-A2438 base pair in the stem–loop structure of 16S rRNA domain III, which is involved in the assembly of mitochondrial ribosome. Oxygen consumption rate of the lymphoblastoid cells carrying 2336T>C mutation had decreased by 37% compared with controls. A reduction in mitochondrial ATP synthesis and an increase in reactive oxidative species production were also observed. Electron microscopic analysis indicated elongated mitochondria and abnormal mitochondrial cristae shape in mutant cells.ConclusionsIt is suggested that the 2336T>C mutation is one of pathogenic mutations of HCM. This is the first report of mitochondrial 16S rRNA 2336T>C mutation and an association with maternally inherited HCM combined with AVB. Our findings provide a new insight into the pathogenesis of HCM.

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Ps1159 pooled Analysis of Safety Data From Monotherapy Studies of the Bruton Tyrosine Kinase (Btk) Inhibitor, Zanubrutinib (Bgb‐3111), in B‐cell Malignancies

Tam¹,

Opat

Zhu³

et al. 2019

HemaSphere

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grade >3. The latter were represented by infections (n = 7), neutropenia (n = 7), arrhythmias (n = 4), arterial hypertension (n = 7), myalgias (n = 3). Two cases of sudden death were reported. Response of AIHA was evident in all patients. By day 141 4 (21%) patients achieved a DATve CR, 10 (53%) DAT+ve CR, 1 -DAT-ve PR and 4 (21%) DAT+ve PR. All PR patients achieved transfusion independence. Two patients with PRCA achieved a CR by days 84 and 150, and 1 patient did not respond. Response of CLL, assessed at day 225 by IWCLL 2008 criteria was available in 19 patients. Seven patients (37%) achieved a CR, including one MRD-negative case. Twelve patients (63%) were classified as PRs because of residual bone marrow infiltration (n = 12) along with persistent splenomegaly (n = 3) or persistent neutropenia (n = 2). No patients have relapsed so far. Summary/Conclusion: The combination of ibrutinib and rituximab demonstrated high activity in the treatment of patients with relapsed and steroid refractory AIHA with underlying CLL. The safety profile of IR combination corresponded to published data.

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Yumeng Song

Mitochondrial Dysfunctions Contribute to Hypertrophic Cardiomyopathy in Patient iPSC-Derived Cardiomyocytes with MT-RNR2 Mutation

Drugging the catalytically inactive state of RET kinase in RET-rearranged tumors

The novel mitochondrial 16S rRNA 2336T>C mutation is associated with hypertrophic cardiomyopathy

Ps1159 pooled Analysis of Safety Data From Monotherapy Studies of the Bruton Tyrosine Kinase (Btk) Inhibitor, Zanubrutinib (Bgb‐3111), in B‐cell Malignancies

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