The Tre2 Oncoprotein, Implicated in Ewing’s Sarcoma, Interacts with Two Components of the Cytoskeleton

The product of the Tre2 oncogene, structurally related to the Ypt/RabGTPase-activating proteins (Ypt/RabGAP), is involved in various human cancers, including Ewing’s sarcoma. In order to identify proteins interacting with the GAP part of this protein, we performed yeast two-hybrid screening of two libraries. Two components of the cytoskeleton were thus identified, whose interaction with the GAP region was confirmed by GST-pulldown, co-immunoprecipitation, and colocalisation experiments. The proteins found to interact with the GAP region are the light regulatory chain of myosin II (Myl2) and LOC91256, a protein containing ankyrin repeats.     

Antagonizing Bcl-2 Family Members Sensitizes Neuroblastoma and Ewing’s Sarcoma to an Inhibitor of Glutamine Metabolism

Neuroblastomas (NBL) and Ewing’s sarcomas (EWS) together cause 18% of all pediatric cancer deaths. Though there is growing interest in targeting the dysregulated metabolism of cancer as a therapeutic strategy, this approach has not been fully examined in NBL and EWS. In this study, we first tested a panel of metabolic inhibitors and identified the glutamine antagonist 6-diazo-5-oxo-L-norleucine (DON) as the most potent chemotherapeutic across all NBL and EWS cell lines tested. Myc, a master regulator of metabolism, is commonly overexpressed in both of these pediatric malignancies and recent studies have established that Myc causes cancer cells to become “addicted” to glutamine. We found DON strongly inhibited tumor growth of multiple tumor lines in mouse xenograft models. In vitro, inhibition of caspases partially reversed the effects of DON in high Myc expressing cell lines, but not in low Myc expressing lines. We further showed that induction of apoptosis by DON in Myc-overexpressing cancers is via the pro-apoptotic factor Bax. To relieve inhibition of Bax, we tested DON in combination with the Bcl-2 family antagonist navitoclax (ABT-263). In vitro, this combination caused an increase in DON activity across the entire panel of cell lines tested, with synergistic effects in two of the N-Myc amplified neuroblastoma cell lines. Our study supports targeting glutamine metabolism to treat Myc overexpressing cancers, such as NBL and EWS, particularly in combination with Bcl-2 family antagonists.     

The spectrum of CLCN1 gene mutations in patients with nondystrophic Thomsen’s and Becker’s myotonias

Thomsen??s and Becker??s diseases are the most prevalent nondystrophic myotonias. Their frequency varies, according to different sources, from 1: 100000 to 1: 10000. Thomsen??s myotonia is autosomal dominant, and Becker??s myotonia is autosomal recessive. Both diseases result from mutations of the CLCN1 gene encoding chloride ion channels of skeletal muscles. Molecular genetic analysis of the CLCN1 gene has been performed in patients with diagnoses of nondystrophic Thomsen??s and Becker??s myotonias living in the Russian Federation. A sample of 79 unrelated probands with nondystrophic Thomsen??s and Becker??s myotonias and 44 their relatives has been formed in the Laboratory of DNA Diagnosis of the Medical Genetic Research Center of the Russian Academy of Medical Sciences. Forty CLCN1 gene mutations have been found in a total of 118 chromosomes of 66 probands, including 21 familial and 45 sporadic cases. About half the mutations detected (45%) have been found for the first time; they are not described in the SNP database (ncbi.nlm.nih.gov). The following mutations (substitutions) have been detected in more than one chromosome, accounting for a total of 59.3% of chromosomes with mutations: Gly190Ser (5.9%), c.1437_1450del14 (9.3%), Ala493Glu (5.1%), Thr550Met (3.4%), Tyr686Stop (5.1%), and Arg894Stop (30.5%).     

African Kaposi’s Sarcoma in the Light of Global AIDS: Antiblackness and Viral Visibility

Drawing on the theoretical frameworks of antiblackness and intersectionality and the concept of viral visibility, this essay attends to the considerable archive of research about endemic Kaposi’s sarcoma (KS) in sub-Saharan Africa accrued during the mid-20th century. This body of data was inexplicably overlooked in Western research into KS during the first decade of the AIDS epidemic, during which period European and Mediterranean KS cases were most often cited as precedents despite the volume of African data available. This paper returns to the research on KS conducted in Africa during the colonial and postcolonial period to consider visibility, racial erasure, and discourses of global epidemiology, suggesting that the dynamics of medical research on HIV/AIDS have proceeded according to a tacit paradigm of antiblackness manifest in multiple exclusions of Africa from global health agendas—most recently the exclusion of the region from antiretroviral (ARV) drug therapy during the first decades of the treatment’s availability. During that decade KS all but disappeared among people with access to ARV therapy while KS became even more prevalent in sub-Saharan Africa, escalating along with HIV.     

The Ca,Cl, Mg,Na, and P Mass Fractions in Human Bone Affected by Ewing’s Sarcoma

The Ca, Cl, Mg, Na, and P contents and Ca/P, Ca/Mg, Ca/Na, Cl/Ca, and Cl/Na ratios in samples of intact bone, inflamed bone, and Ewing’s sarcoma tissue were investigated by neutron activation analysis with high-resolution spectrometry of short-lived radionuclides. In Ewing’s sarcoma tissue, the mass fractions of Cl and Na are higher and the mass fractions of Ca and Mg are lower than those of both normal and inflamed bone tissues. It was shown that the levels of Ca and Cl mass fractions and also levels of the Ca/Cl and Cl/Na ratios can be used as an additional test for differential diagnosis between inflamed (or normal) bone and Ewing’s sarcoma.     

Apoptosis in Down’s syndrome: lessons from studies of human and mouse models

Down syndrome (DS) is the most common chromosomal abnormality in humans. DS is characterized by a number of phenotypes, including the development of Alzheimer’s disease-like pathology and immunological, hematological and cardiovascular alterations. Apoptosis or programmed cell death is physiologically involved in development and aging, as well as in numerous pathological processes. Altered apoptosis has been proposed as a putative mechanism underlying many DS phenotypes. Evidence from human and animal studies indicates that apoptosis does not have a prominent role in the disturbances found in brain development in trisomy 21. However, alterations in apoptosis have been associated with neurodegeneration in the aging DS brain, with impairments in general growth and with immunological, cardiovascular and oncological alterations. Altered apoptosis in DS is likely to be the result of the interplay between several chromosome 21 (Hsa21) and non-Hsa21 genes. The interplay between these genes may affect physiological programmed cell death either directly, by modifying the activity of the apoptotic pathways, or indirectly, by inducing degeneration and rendering the cell more vulnerable to apoptosis-inducing factors.     

Structure and function of ETAA16: a novel cell surface antigen in Ewing’s tumours

Immunoscreening of an Ewing’s family of tumour (EFT)-derived cDNA library using formerly described EFT-specific antibodies led to the isolation of a 3.5 kb cDNA, named Ewing’s tumour-associated antigen 16 (ETAA16). The ETAA16 cDNA shows no homology to any functionally characterised human gene. Only a bovine cDNA expressed in bovine testis and hepatocytes is functionally characterised as it encodes for a junction plaque associated protein and showed a homology of 69.9% at amino acid level to ETAA16. The human cDNA encodes for a 926 amino acid tumour antigen with a calculated molecular weight of 103 kDa. The epitope of the ETAA16-specific antibody, Ak16, covers the central region of the protein which is part of an extra cellular domain. The human ETAA16 gene locus has been assigned to chromosome 2p13-15 by FISH analyses and is confirmed by the human genome sequencing project. As demonstrated by flow cytometry, the cell surface expression of ETAA16 antigen is restricted to ET cell lines and not expressed on other small blue round cell tumours or other kind of tumour. RT-PCR analysis revealed a high expression of ETAA16 in brain, liver and kidney while lung and heart were negative. Immunohistochemistry showed an intracellular expression of ETAA16 in different kind of non-Ewing tumour tissues. These results suggest that ETAA16 may function as a tumour-specific cell surface antigen in EFTs.     

Catecholamine metabolism in children with Asperger’s and Kanner’s syndromes

In a stable state children with Asperger’s and Kanner’s syndromes demonstrate a similar decrease in plasma norepinephrine. In the aggravated state, these changes become more expressed and are characterized by a decrease in plasma tyrosine, norepinephrine, normetanephrine, and by an increase in dopamine and homovanillic acid and a decrease in excretion of norepinephrine and an increase in excretion of homovanillic acid, epinephrine and 3-methoxy-4-hydroxyphenylglycol (MHPG). In the aggravated state children with Kanner’s syndrome were characterized by increased plasma MHPG, decreased excretion of tyrosine and increased expression of normetanephrine. The observed imbalance in dopamine and epinephrine/norepinephrine systems suggests importance of combined analysis of changes in catecholamines and their metabolites as the most informative approach in the study of the effect of autistic disorders.     

Apoptosis of Dalton’s lymphoma due to in vivo treatment with emodin is associated with modulations of hydrogen peroxide metabolizing antioxidant enzymes

The evolving concept of pro-oxidative mechanism-based antitumor activity of emodin (1,3,8-trihydroxy-6-methyl anthraquinone), derived mainly from in vitro studies, needs to be defined for in vivo tumor models. The present article describes apoptosis and regression of Dalton’s lymphoma (DL) in mice by emodin vis a vis modulations of hydrogen peroxide (H₂O₂) metabolizing antioxidant enzymes in the tumor cells in vivo. A non-toxic dose (40 mg/kg bw) of emodin, given intraperitoneally to the DL bearing mice daily up to 12th post DL transplantation day, caused a significant decline (P < 0.05) in the number of viable DL cells and could significantly increase life span of the DL mice (P < 0.01). A significant decline in Bcl2/Bax ratio consistent with the release of mitochondrial cytochrome c release in DL cells from emodin-treated DL mice suggested that emodin could induce mitochondrial pathway of apoptosis in the DL cells in vivo. Apoptosis of DL cells by emodin was further confirmed by the appearance of smaller DNA fragments on DNA ladder analysis. Over activation of both, the Cu–Zn-superoxide dismutases (SOD1) and Mn-SOD (SOD2), has been found correlated with the tumor suppression. Emodin caused significant increases in the expression and activity of SOD1 and SOD2 in the DL cells. H₂O₂ produced by SODs is degraded by catalase and glutathione peroxidase in the cells. Both these enzymes were observed to be declined significantly with a concomitant increment in H₂O₂ concentration (P < 0.01) in the DL cells from emodin-treated DL mice. It is concluded that emodin is able to induce mitochondrial pathway of apoptosis in the DL cells in vivo via reciprocal modulations of H₂O₂ producing and degrading antioxidant enzymes.     

Morphoproteomic Profiling of the Mammalian Target of Rapamycin (mTOR) Signaling Pathway in Desmoplastic Small Round Cell Tumor (EWS/WT1), Ewing’s Sarcoma (EWS/FLI1) and Wilms’ Tumor(WT1)

Background

Desmoplastic small round cell tumor (DSRCT) is a rare sarcoma in adolescents and young adults. The hallmark of this disease is a EWS-WT1 translocation resulting from apposition of the Ewing’s sarcoma (EWS) gene with the Wilms’ tumor (WT1) gene. We performed morphoproteomic profiling of DSRCT (EWS-WT1), Ewing’s sarcoma (EWS-FLI1) and Wilms’ tumor (WT1) to better understand the signaling pathways for selecting future targeted therapies.

Methodology

This pilot study assessed patients with DSRCT, Wilms’ tumor and Ewing’s sarcoma. Morphoproteomics and immunohistochemical probes were applied to detect: p-mTOR (Ser2448); p-Akt (Ser473); p-ERK1/2 (Thr202/Tyr204); p-STAT3 (Tyr 705); and cell cycle-related analytes along with their negative controls.

Principal Findings

In DSRCT the PI3K/Akt/mTOR pathway is constitutively activated by p-Akt (Ser 473) expression in the nuclear compartment of the tumor cells and p-mTOR phosphorylated on Ser 2448, suggesting mTORC2 (rictor+mTOR) as the dominant form. Ewing’s sarcoma had upregulated p-Akt and p-mTOR, predominantly mTORC2. In Wilm’s tumor, the mTOR pathway is also activated with most tumor cells moderately expressing p-mTOR (Ser 2448) in plasmalemmal and cytoplasmic compartments. This coincides with the constitutive activation of one of the downstream effectors of the mTORC1 signaling pathway, namely p-p70S6K (Thr 389). There was constitutive activation of the Ras/Raf/ERK pathway p-ERK 1/2 (Thr202/Tyr204) expression in the Wilms tumor and metastatic Ewing’s sarcoma, but not in the DSRCT.

Conclusion

Morphoproteomic tumor analyses revealed constitutive activation of the mTOR pathway as evidenced by: (a) expression of phosphorylated (p)-mTOR, p-p70S6K; (b) mTORC 2 in EWS and DSRCT; (c) ERK signaling was seen in the advanced setting indicating these as resistance pathways to IGF1R related therapies. This is the first morphoproteomic study of such pathways in these rare malignancies and may have potential therapeutic implications. Further study using morphoproteomic assessments of these tumors are warranted.     

Attractiveness and Rivalry in Women’s Friendships with Women

Past research suggests that young women perceive their same-sex friends as both facilitating the pursuit of desirable mates and competing for access to desirable mates. We propose that similar levels of physical attractiveness between young adult female friends might be one explanation for the opposing forces in their friendships. Forty-six female friendship pairs completed questionnaires about themselves, their friend, and their friendship; in addition, each woman’s picture was rated by a set of nine naive judges. Friends were similar in both self-rated and other-rated level of attractiveness. Within-pair analyses revealed that women agreed on which friend was more attractive, and the less attractive members of each friendship pair (by pair consensus as well as outside judges’ ratings) perceived more mating rivalry in their friendship than did the more attractive members of each friendship pair. We offer directions for research on women’s friendships over the lifespan.     

Establishment of a novel patient-derived Ewing’s sarcoma cell line,NCC-ES1-C1

Ewing’s sarcoma is an aggressive mesenchymal tumor characterized by the presence of a unique EWSR1-FLI1 translocation. Ewing’s sarcoma primarily occurs in the bone and soft tissues. Cell lines enable researchers to investigate the molecular backgrounds of disease and the significance of genetic alterations in relevant cellular contexts. Here, we report the establishment and characterization of a novel Ewing’s sarcoma cell line following primary Ewing’s sarcoma tumor tissue culture. The established cell line was authenticated by DNA microsatellite short tandem repeat analysis, characterized by in vitro assays, and named NCC-ES1-C1. The NCC-ES1-C1 cell line grew well for 15 mo and was subcultured more than 50 times during this period. Characterization of the cells revealed that they were not adherent and showed floating features. In conclusion, we successfully established a novel Ewing’s sarcoma cell line, NCC-ES1-C1, from primary tumor tissue. The cell line has the characteristic EWSR1-FLI1 gene fusion and exhibits aggressive growth in vitro. Thus, the NCC-ES1-C1 cell line will be a useful tool for investigating the mechanisms of disease and the biological role of the EWSR1-FLI1 fusion gene.