Bartik Instruments: What, When, Why, and How

Hepatic mitochondria contain an inducible cytochrome P450, referred to as P450 MT5, which cross-reacts with antibodies to microsomal cytochrome P450 2E1. In the present study, we purified, partially sequenced, and determined enzymatic properties of the rat liver mitochondrial form. The mitochondrial cytochrome P450 2E1 was purified from pyrazole-induced rat livers using a combination of hydrophobic and ionexchange chromatography. Mass spectrometry analysis of tryptic fragments of the purified protein further ascertained its identity. N-terminal sequencing of the purified protein showed that its N terminus is identical to that of the microsomal cytochrome P450 2E1. In reconstitution experiments, the mitochondrial cytochrome P450 2E1 displayed the same catalytic activity as the microsomal counterpart, although the activity of the mitochondrial enzyme was supported exclusively by adrenodoxin and adrenodoxin reductase. Mass spectrometry analysis of tryptic fragments and also immunoblot analysis of proteins with anti-serine phosphate antibody demonstrated that the mitochondrial cytochrome P450 2E1 is phosphorylated at a higher level compared with the microsomal counterpart. A different conformational state of the mitochondrial targeted cytochrome P450 2E1 (P450 MT5) is likely to be responsible for its observed preference for adrenodoxin and adrenodoxin reductase electron transfer proteins.

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Multiple isoforms of mitochondrial glutathione S-transferases and their differential induction under oxidative stress

Raza

et al. 2002

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The mitochondrial respiratory chain, which consumes approx. 85-90% of the oxygen utilized by cells, is a major source of reactive oxygen species (ROS). Mitochondrial genetic and biosynthetic systems are highly susceptible to ROS toxicity. Intramitochondrial glutathione (GSH) is a major defence against ROS. In the present study, we have investigated the nature of the glutathione S-transferase (GST) pool in mouse liver mitochondria, and have purified three distinct forms of GST: GSTA1-1 and GSTA4-4 of the Alpha family, and GSTM1-1 belonging to the Mu family. The mitochondrial localization of these multiple GSTs was confirmed using a combination of immunoblot analysis, protease protection assay, enzyme activity, N-terminal amino acid sequencing, peptide mapping and confocal immunofluorescence analysis. Additionally, exogenously added 4-hydroxynonenal (HNE), a reactive byproduct of lipid peroxidation, to COS cells differentially affected the cytosolic and mitochondrial GSH pools in a dose- and time-dependent manner. Our results show that HNE-mediated mitochondrial oxidative stress caused a decrease in the GSH pool, increased membrane lipid peroxidation, and increased levels of GSTs, glutathione peroxidase and Hsp70 (heat-shock protein 70). The HNE-induced oxidative stress persisted for longer in the mitochondrial compartment, where the recovery of GSH pool was slower than in the cytosolic compartment. Our study, for the first time, demonstrates the presence in mitochondria of multiple forms of GSTs that show molecular properties similar to those of their cytosolic counterparts. Our results suggest that mitochondrial GSTs may play an important role in defence against chemical and oxidative stress.

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The H⁺-Linked Monocarboxylate Transporter (MCT1/SLC16A1): A Potential Therapeutic Target for High-Risk Neuroblastoma

Fang¹,

Quiñones²,

Holman³

et al. 2006

Mol Pharmacol

157

107

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Neuroblastomas produce high amounts of lactic acid and upregulate the H ϩ -linked monocarboxylate transporter isoform 1 (MCT1/SLC16A1). We found elevated MCT1 mRNA levels in fresh neuroblastoma biopsy samples that correlated positively with risk of fatal disease and amplification of the "proto-oncogenic" transcription factor MYCN. We further investigated MCT as a potential therapeutic target in vitro. The neuroblastoma cell lines evaluated were Sk-N-SH, CHP134, IMR32, and NGP. All lines exhibited decreased intracellular pH at low tumor-like extracellular pH. Lonidamine or exogenous lactate further lowered intracellular pH. Immediate early lowering of intracellular pH with lonidamine or lactate at extracellular pH 6.5 correlated positively with diminished cell viability within 48 h. These findings indicate that MCT1 is a potential therapeutic target and that neuroblastoma therapy may be enhanced by therapeutic strategies to inhibit or overwhelm MCT. Additional experiments indicated that the mechanism of cell death by lonidamine or exogenous lactate is similar to that obtained using ␣-cyano-4-OH-cinnamate, a well established MCT inhibitor. Because lactate production is also high in melanoma and many other tumor types, MCT inhibitors may have broad application in cancer treatment. Such treatment would have selectivity by virtue of the acidic milieu surrounding tumors, because MCT is increasingly active as extracellular pH decreases below 7.0 and lactic acid production increases.

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Heterogeneous Nuclear Ribonucleoprotein A2 Is a Common Transcriptional Coactivator in the Nuclear Transcription Response to Mitochondrial Respiratory Stress

Guha

Pan

Fang

et al. 2009

MBoC

100

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Mitochondrial dysfunction and altered transmembrane potential initiate a mitochondrial respiratory stress response, also known as mitochondrial retrograde response, in a wide spectrum of cells. The mitochondrial stress response activates calcineurin, which regulates transcription factors, including a new nuclear factor-B (NF-B) pathway, different from the canonical and noncanonical pathways. In this study using a combination of small interfering RNA-mediated mRNA knock down, transcriptional analysis, and chromatin immunoprecipitation, we report a common mechanism for the regulation of previously established stress response genes Cathepsin L, RyR1, and Glut4. Stress-regulated transcription involves the cooperative interplay between NF-B (cRel: p50), C/EBP␦, cAMP response element-binding protein, and nuclear factor of activated T cells. We show that the functional synergy of these factors requires the stress-activated heterogeneous nuclear ribonucleoprotein (hnRNP) A2 as a coactivator. HnRNP A2 associates with the enhanceosome, mostly through protein-protein interactions with DNA-bound factors. Silencing of hnRNP A2 as well as other DNA binding signature factors prevents stress-induced transcriptional activation and reverses the invasiveness of mitochondrial DNA-depleted C2C12 cells. Induction of mitochondrial stress signaling by electron transfer chain inhibitors also involved hnRNPA2 activation. We describe a common mechanism of mitochondrial respiratory stress-induced activation of nuclear target genes that involves hnRNP A2 as a transcription coactivator. INTRODUCTIONMitochondrial biogenesis requires a coordinated interplay between proteins encoded by the nuclear and mitochondrial genomes. At least two different mechanisms have been described for the intergenomic cross-talk between these spatially separated genetic systems: anterograde and retrograde signaling (Liao et al., 1991;Liu and Butow, 2006). The anterograde intergenomic regulatory circuit involves nonmitochondrial signals that activate nuclear transcription factors to regulate both nuclear and mitochondrial gene expression (Poyton and McEwen, 1996;Kelly and Scarpulla, 2004;Spiegelman, 2007). The role of peroxisome proliferator-activated receptor ␥ coactivator-1 family of coactivator proteins in mitochondrial biogenesis and respiration is an example of this type of regulation (Puigserver et al., 1998). Regulation of cellular respiration by reduced mammalian target of rapamycin signaling probably represents another example of anterograde signaling (Bonawitz et al., 2007). In contrast, the retrograde intergenomic regulatory circuit involves the regulation of nuclear gene expression by mitochondrial stress signals that are initiated by metabolic stress, respiratory changes, or mitochondrial DNA damage (Liao and Butow, 1993;Jia et al., 1997;Biswas et al., 1999;Liu et al., 2001;Amuthan et al., 2002;Butow and Avadhani, 2004;Liu and Butow, 2006).The mammalian retrograde pathway is initiated by disruption of mitochondrial membrane potential (⌬⌿ m ), which can ...

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Cancer-driving H3G34V/R/D mutations block H3K36 methylation and H3K36me3–MutSα interaction

Fang

Huang

Mao

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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Somatic mutations on glycine 34 of histone H3 (H3G34) cause pediatric cancers, but the underlying oncogenic mechanism remains unknown. We demonstrate that substituting H3G34 with arginine, valine, or aspartate (H3G34R/V/D), which converts the non-side chain glycine to a large side chain-containing residue, blocks H3 lysine 36 (H3K36) dimethylation and trimethylation by histone methyltransferases, including SETD2, an H3K36-specific trimethyltransferase. Our structural analysis reveals that the H3 "G33-G34" motif is recognized by a narrow substrate channel, and that H3G34/R/V/D mutations impair the catalytic activity of SETD2 due to steric clashes that impede optimal SETD2-H3K36 interaction. H3G34R/V/D mutations also block H3K36me3 from interacting with mismatch repair (MMR) protein MutSα, preventing the recruitment of the MMR machinery to chromatin. Cells harboring H3G34R/V/D mutations display a mutator phenotype similar to that observed in MMR-defective cells. Therefore, H3G34R/V/D mutations promote genome instability and tumorigenesis by inhibiting MMR activity.

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Activation of Akt Is Essential for the Propagation of Mitochondrial Respiratory Stress Signaling and Activation of the Transcriptional Coactivator Heterogeneous Ribonucleoprotein A2

Guha

Fang²,

Monks

et al. 2010

MBoC

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Site specific phosphorylation of cytochrome c oxidase subunits I, IVi1 and Vb in rabbit hearts subjected to ischemia/reperfusion

et al. 2007

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We have mapped the sites of ischemia/reperfusion-induced phosphorylation of cytochrome c oxidase (CcO) subunits in rabbit hearts by using a combination of Blue Native gel/Tricine gel electrophoresis and nano-LC-MS/MS approaches. We used precursor ion scanning combined with neutral loss scanning and found that mature CcO subunit I was phosphorylated at tandem Ser115/Ser116 positions, subunit IVi1 at Thr52 and subunit Vb at Ser40. These sites are highly conserved in mammalian species. Molecular modeling suggests that phosphorylation sites of subunit I face the inter membrane space while those of subunits IVi1 and Vb face the matrix side.

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Prognostic value of immune checkpoint molecules in breast cancer

Fang

Chen

Liu

et al. 2020

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Abstract Immune checkpoint blockade treatments bring remarkable clinical benefits to fighting several solid malignancies. However, the efficacy of immune checkpoint blockade in breast cancer remains controversial. Several clinical trials of immune checkpoint blockades focused on the effect of CTLA4 and PD1/PDL1 checkpoint inhibitors on breast cancer. Only a small portion of patients benefited from these therapies. Here we systematically investigated the expression of 50 immune checkpoint genes, including ADORA2A, LAG-3, TIM-3, PD1, PDL1, PDL2, CTLA-4, IDO1, B7-H3, B7-H4, CD244, BTLA, TIGIT, CD80, CD86, VISTA, CD28, ICOS, ICOSLG, HVEM, CD160, LIGHT, CD137, CD137L, OX40, CD70, CD27, CD40, CD40LG, LGALS9, GITRL, CEACAM1, CD47, SIRPA, DNAM1, CD155, 2B4, CD48, TMIGD2, HHLA2, BTN2A1, DC-SIGN, BTN2A2, BTN3A1, BTNL3, BTNL9, CD96, TDO, CD200 and CD200R, in different subtypes of breast cancer and assessed their prognostic value. The results showed that the expression patterns of these 50 immune checkpoint genes were distinct in breast cancer. High expression of B7-H3 mRNA was significantly associated with worse overall survival (OS), especially in patients with luminal A and luminal B breast cancer. The mRNA expression levels of TIM-3, ADORA2A, LAG3, CD86, CD80, PD1 and IDO1 had no relationship with OS in breast cancer. High expression levels of CTLA-4 and TIGIT were correlated with favorable prognosis in breast cancer. Interestingly, we observed that B7-H3 expression was negatively correlated with the efficacy of cyclophosphamide (CTX). In summary, our study suggested that B7-H3 has potential prognostic value in breast cancer and is a promising target for immune therapy.

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Jun Fang

Mitochondrial Targeted Cytochrome P450 2E1 (P450 MT5) Contains an Intact N Terminus and Requires Mitochondrial Specific Electron Transfer Proteins for Activity

Multiple isoforms of mitochondrial glutathione S-transferases and their differential induction under oxidative stress

The H⁺-Linked Monocarboxylate Transporter (MCT1/SLC16A1): A Potential Therapeutic Target for High-Risk Neuroblastoma

Heterogeneous Nuclear Ribonucleoprotein A2 Is a Common Transcriptional Coactivator in the Nuclear Transcription Response to Mitochondrial Respiratory Stress

Cancer-driving H3G34V/R/D mutations block H3K36 methylation and H3K36me3–MutSα interaction

Activation of Akt Is Essential for the Propagation of Mitochondrial Respiratory Stress Signaling and Activation of the Transcriptional Coactivator Heterogeneous Ribonucleoprotein A2

Site specific phosphorylation of cytochrome c oxidase subunits I, IVi1 and Vb in rabbit hearts subjected to ischemia/reperfusion

Prognostic value of immune checkpoint molecules in breast cancer

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Jun Fang

Mitochondrial Targeted Cytochrome P450 2E1 (P450 MT5) Contains an Intact N Terminus and Requires Mitochondrial Specific Electron Transfer Proteins for Activity

Multiple isoforms of mitochondrial glutathione S-transferases and their differential induction under oxidative stress

The H+-Linked Monocarboxylate Transporter (MCT1/SLC16A1): A Potential Therapeutic Target for High-Risk Neuroblastoma

Heterogeneous Nuclear Ribonucleoprotein A2 Is a Common Transcriptional Coactivator in the Nuclear Transcription Response to Mitochondrial Respiratory Stress

Cancer-driving H3G34V/R/D mutations block H3K36 methylation and H3K36me3–MutSα interaction

Activation of Akt Is Essential for the Propagation of Mitochondrial Respiratory Stress Signaling and Activation of the Transcriptional Coactivator Heterogeneous Ribonucleoprotein A2

Site specific phosphorylation of cytochrome c oxidase subunits I, IVi1 and Vb in rabbit hearts subjected to ischemia/reperfusion

Prognostic value of immune checkpoint molecules in breast cancer

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Product

Resources

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The H⁺-Linked Monocarboxylate Transporter (MCT1/SLC16A1): A Potential Therapeutic Target for High-Risk Neuroblastoma