A Review and Expert Opinion on the Neuropsychiatric Assessment of Motor Functional Neurological Disorders

Increasing evidence suggests that movement of key proteins in or out of mitochondria during apoptosis is essential for the regulation of apoptosis. Here, we report identification of the actin-binding protein cofilin by a proteomic approach, as such a factor translocated from cytosol into mitochondria after induction of apoptosis. We found that after induction of apoptosis, cofilin was translocated to mitochondria before release of cytochrome c. Reduction of cofilin protein levels with small-interfering RNA (siRNA) resulted in inhibition of both cytochrome c release and apoptosis. Only dephosphorylated cofilin was translocated to mitochondria, and the cofilin S3D mutant, which mimicks the phosphorylated form, suppressed mitochondrial translocation and apoptosis. Translocation was achieved through exposure of an amino-terminal mitochondrial targeting signal in combination with carboxy-terminal sequences. When correctly targeted to mitochondria, cofilin induced massive apoptosis. The apoptosis-inducing ability of cofilin, but not its mitochondrial localization, was dependent on the functional actin-binding domain. Thus, domains involved in mitochondrial targeting and actin binding are indispensable for its pro-apoptotic function. Our data suggest that cofilin has an important function during the initiation phase of apoptosis.

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Identification of Chelerythrine as an Inhibitor of BclXL Function

Chan

Lee

Tan

et al. 2003

Journal of Biological Chemistry

154

130

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The identification of small molecule inhibitors of antiapoptotic Bcl-2 family members has opened up new therapeutic opportunities, while the vast diversity of chemical structures and biological activities of natural products are yet to be systematically exploited. Here we report the identification of chelerythrine as an inhibitor of BclXL-Bak Bcl-2 homology 3 (BH3) domain binding through a high throughput screening of 107,423 extracts derived from natural products. Chelerythrine inhibited the BclXL-Bak BH3 peptide binding with IC 50 of 1.5 M and displaced Bax, a BH3-containing protein, from BclXL. Mammalian cells treated with chelerythrine underwent apoptosis with characteristic features that suggest involvement of the mitochondrial pathway. While staurosporine, H7, etoposide, and chelerythrine released cytochrome c from mitochondria in intact cells, only chelerythrine released cytochrome c from isolated mitochondria. Furthermore BclXL-overexpressing cells that were completely resistant to apoptotic stimuli used in this study remained sensitive to chelerythrine. Although chelerythrine is widely known as a protein kinase C inhibitor, the mechanism by which it mediates apoptosis remain controversial. Our data suggest that chelerythrine triggers apoptosis through a mechanism that involves direct targeting of Bcl-2 family proteins.

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MAP-1, a Novel Proapoptotic Protein Containing a BH3-like Motif That Associates with Bax through Its Bcl-2 Homology Domains

Tan

Chan

et al. 2001

Journal of Biological Chemistry

130

125

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A novel Bax-associating protein, named MAP-1 (Modulator of Apoptosis), has been identified in a yeast twohybrid screen. MAP-1 contains a BH3-like (BH: Bcl-2 homology) motif and mediates caspase-dependent apoptosis in mammalian cells when overexpressed. MAP-1 homodimerizes and associates with the proapoptotic Bax and the prosurvival Bcl-2 and Bcl-X L of the Bcl-2 family in vitro and in vivo in mammalian cells. Mutagenesis analyses revealed that the BH3-like domain in MAP-1 is not required for its association with Bcl-X L but is required for association with Bax and for mediating apoptosis. Interestingly, in contrast to other Bax-associating proteins such as Bcl-X L and Bid, which require the BH3 and BH1 domains of Bax, respectively, for binding, the binding of MAP-1 to Bax appears to require all three BH domains (BH1, BH2, and BH3) of Bax, because point mutation of the critical amino acid in any one of these domains is sufficient to abolish its binding to MAP-1. These data suggest that MAP-1 mediates apoptosis through a mechanism that involves binding to Bax.

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MAP-1 is a mitochondrial effector of Bax

Tan

Sukumaran

et al. 2005

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

106

121

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F1Aα, a Death Receptor-binding Protein Homologous to theCaenorhabditis elegans Sex-determining Protein, FEM-1, Is a Caspase Substrate That Mediates Apoptosis

Chan

Tan²,

Zhang³

et al. 1999

Journal of Biological Chemistry

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Apoptosis is an evolutionarily conserved process that is critical for tissue homeostasis and development including sex determination in essentially all multicellular organisms. Here, we report the cloning of an ankyrin repeat-containing protein, termed F1A␣, in a yeast twohybrid screen using the cytoplasmic domain of Fas (CD95/APO-1) as bait. Amino acid sequence analysis indicates that F1A␣ has extensive homology to the sexdetermining protein FEM-1 of the Caenorhabditis elegans, which is required for the development of all aspects of the male phenotype. F1A␣ associates with the cytoplasmic domains of Fas and tumor necrosis factor receptor 1, two prototype members of the "death receptor" family. The F1A␣ protein also oligomerizes. Overexpression of F1A␣ induces apoptosis in mammalian cells, and co-expression of Bcl-XL or the dominant negative mutants of either FADD or caspase-9 blocks this effect. Deletion analysis revealed the center region of F1A␣, including a cluster of five ankyrin repeats to be necessary and sufficient for maximum apoptotic activity, and the N-terminal region appears to regulate negatively this activity. Furthermore, F1A␣ is cleaved by a caspase-3-like protease at Asp 342 , and the cleavage-resistant mutant is unable to induce apoptosis upon overexpression.

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A Novel BH3-like Domain in BID Is Required for Intramolecular Interaction and Autoinhibition of Pro-apoptotic Activity

Tan

1999

Journal of Biological Chemistry

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The Caenorhabditis elegansSex-determining Protein FEM-2 and Its Human Homologue, hFEM-2, Are Ca2+/Calmodulin-dependent Protein Kinase Phosphatases That Promote Apoptosis

Tan

Chan

Tan

et al. 2001

Journal of Biological Chemistry

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In Caenorhabditis elegans, fem-1, fem-2, and fem-3 play pivotal roles in sex determination. Recently, a mammalian homologue of the C. elegans sex-determining protein FEM-1, F1A␣, has been described. Although there is little evidence to link F1A␣ to sex determination, F1A␣ and FEM-1 both promote apoptosis in mammalian cells. Here we report the identification and characterization of a human homologue of the C. elegans sex-determining protein FEM-2, hFEM-2. Similar to FEM-2, hFEM-2 exhibited PP2C phosphatase activity and associated with FEM-3. hFEM-2 shows striking similarity (79% amino acid identity) to rat Ca 2؉ /calmodulin (CaM)-dependent protein kinase phosphatase (rCaMKPase). hFEM-2 and FEM-2, but not PP2C␣, were demonstrated to dephosphorylate CaM kinase II efficiently in vitro, suggesting that hFEM-2 and FEM-2 are specific phosphatases for CaM kinase. Furthermore, hFEM-2 and FEM-2 associated with F1A␣ and FEM-1 respectively. Overexpression of hFEM-2, FEM-2, or rCaMKPase all mediated apoptosis in mammalian cells. The catalytically active, but not the inactive, forms of hFEM-2 induced caspase-dependent apoptosis, which was blocked by Bcl-XL or a dominant negative mutant of caspase-9. Taken together, our data suggest that hFEM-2 and rCaMKPase are mammalian homologues of FEM-2 and they are evolutionarily conserved CaM kinase phosphatases that may have a role in apoptosis signaling.

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PNMA family: Protein interaction network and cell signalling pathways implicated in cancer and apoptosis

Pang

Lahiri

Poh

et al. 2018

Cellular Signalling

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Paraneoplastic Ma Family (PNMA) comprises a growing number of family members which share relatively conserved protein sequences encoded by the human genome and is localized to several human chromosomes, including the X-chromosome. Based on sequence analysis, PNMA family members share sequence homology to the Gag protein of LTR retrotransposon, and several family members with aberrant protein expressions have been reported to be closely associated with the human Paraneoplastic Disorder (PND). In addition, gene mutations of specific members of PNMA family are known to be associated with human mental retardation or 3-M syndrome consisting of restrictive post-natal growth or dwarfism, and development of skeletal abnormalities. Other than sequence homology, the physiological function of many members in this family remains unclear. However, several members of this family have been characterized, including cell signalling events mediated by these proteins that are associated with apoptosis, and cancer in different cell types. Furthermore, while certain PNMA family members show restricted gene expression in the human brain and testis, other PNMA family members exhibit broader gene expression or preferential and selective protein interaction profiles, suggesting functional divergence within the family. Functional analysis of some members of this family have identified protein domains that are required for subcellular localization, protein-protein interactions, and cell signalling events which are the focus of this review paper.

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Kuan Onn Tan

Mitochondrial translocation of cofilin is an early step in apoptosis induction

Identification of Chelerythrine as an Inhibitor of BclXL Function

MAP-1, a Novel Proapoptotic Protein Containing a BH3-like Motif That Associates with Bax through Its Bcl-2 Homology Domains

MAP-1 is a mitochondrial effector of Bax

F1Aα, a Death Receptor-binding Protein Homologous to theCaenorhabditis elegans Sex-determining Protein, FEM-1, Is a Caspase Substrate That Mediates Apoptosis

A Novel BH3-like Domain in BID Is Required for Intramolecular Interaction and Autoinhibition of Pro-apoptotic Activity

The Caenorhabditis elegansSex-determining Protein FEM-2 and Its Human Homologue, hFEM-2, Are Ca2+/Calmodulin-dependent Protein Kinase Phosphatases That Promote Apoptosis

PNMA family: Protein interaction network and cell signalling pathways implicated in cancer and apoptosis

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