C Mackall

Publications (5)19.44 Total impact

• Source

  Available from: wustl.edu

  Article: Background to hematopoietic cell transplantation, including post transplant immune recovery.

  C Mackall, T Fry, R Gress, K Peggs, J Storek, A Toubert
  Bone marrow transplantation 10/2009; 44(8):457-62. · 3.00 Impact Factor
• Article: Beta4 integrin promotes osteosarcoma metastasis and interacts with ezrin

  X Wan, S Y Kim, L M Guenther, A Mendoza, J Briggs, C Yeung, D Currier, H Zhang, C Mackall, W-J Li, R S Tuan, A T Deyrup, C Khanna, L Helman
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  ABSTRACT: The development of pulmonary metastasis is the major cause of death in osteosarcoma, and its molecular basis is poorly understood. In this study, we show that β4 integrin is highly expressed in human osteosarcoma cell lines and tumor samples. Furthermore, highly metastatic MNNG-HOS cells have increased levels of β4 integrin. Suppression of β4 integrin expression by shRNA and disruption of β4 integrin function by transfection of dominant-negative β4 integrin was sufficient to revert this highly metastatic phenotype in the MNNG-HOS model without significantly affecting primary tumor growth. These findings suggest a role for β4 integrin expression in the metastatic phenotype in human osteosarcoma cells. In addition, we identified a previously uncharacterized interaction between β4 integrin and ezrin, a membrane-cytoskeletal linker protein that is implicated in the metastatic behavior of osteosarcoma. The β4 integrin–ezrin interaction appears to be critical for maintenance of β4 integrin expression. These data begin to integrate ezrin and β4 integrin expression into a model of action for the mechanism of osteosarcoma metastases.Keywords: β4 integrin, osteosarcoma, metastases, ezrin, interaction
  Oncogene 07/2009; 28(38):3401-3411. · 6.37 Impact Factor
• Article: Beta-platelet-derived growth factor receptor mediates motility and growth of Ewing's sarcoma cells.

  A Uren, M S Merchant, C J Sun, M I Vitolo, Y Sun, M Tsokos, P B Illei, M Ladanyi, A Passaniti, C Mackall, J A Toretsky
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  ABSTRACT: The Ewing's sarcoma family of tumors (ESFT) contain a translocation, t(11;22), which results in the novel oncogenic fusion protein EWS/FLI1. Platelet-derived growth factors (PDGF) and their receptors (PDGFR) are involved in the induction and proliferation of numerous solid tumors and are the potential candidates for novel targeted antitumor therapy. Since a relation was reported between PDGF-C and EWS/FLI1, we sought to characterize the PDGF signaling pathway in ESFT. Eight out of nine ESFT cell lines were found to express significant levels of beta-PDGFR. Interestingly, none of the tested cell lines expressed alpha-PDGFR, which is the receptor isotype required for PDGF-C binding. By immunohistochemical staining 47 of 52 (90.4%) archival tumor samples from patients with ESFT were positive for beta-PDGFR. ESFT cell lines were treated with PDGF-AA or PDGF-BB ligands to evaluate downstream signaling. Autophosphorylation of beta-PDGFR and tyrosine phosphorylation of PLC-gamma, PI3Kp85 and Shc were detected only in PDGF-BB-stimulated cells that express beta-PDGFR. Receptor function was further evaluated using chemotaxis assays that showed TC-32 cell migration towards PDGF-BB. A specific PDGFR kinase inhibitor AG1295 blocked beta-PDGFR activation, downstream signaling, growth in cell culture and chemotaxis of TC-32 cells. AG1295 also delayed tumor formation and prolonged survival in an ESFT animal model. We conclude that ESFT express beta-PDGFR and that this is a functional and potentially crucial signaling pathway. Therefore, beta-PDGFRs may provide a novel therapeutic target in ESFT that can be utilized to design better treatment modalities.
  Oncogene 05/2003; 22(15):2334-42. · 6.37 Impact Factor
• Article: Molecular confirmation of Ewing sarcoma.

  R Dagher, T A Pham, L Sorbara, S Kumar, L Long, D Bernstein, C Mackall, M Raffeld, M Tsokos, L Helman
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  ABSTRACT: To analyze retrospectively results of reverse transcription polymerase chain reaction (RT-PCR) testing and demographic information in patients with known or suspected Ewing sarcoma/primitive neuroectodermal tumor family of tumors referred to the National Cancer Institute and to describe factors influencing the determination of molecular marker status. Tumor samples from 76 patients from February 1997 to December 1999 were analyzed. In all cases, the diagnosis of this family of tumors was confirmed by histopathologic review. In 58 patients, the presence of a translocation associated with this family of tumors was confirmed using RT-PCR. Specifically, there were 45 Ewing sarcoma (EWS)-FLI type 1 translocations, four EWS-FLI type 2 translocations, five EWS-ERG translocations, and four less common EWS-FLI variants. Of patients with a confirmed translocation, four were confirmed only after nested RT-PCR techniques were used. In five patients who initially underwent needle biopsy, the diagnosis was confirmed only after open biopsy or repeat needle biopsy was undertaken. Samples from 18 patients were translocation-negative. Of these, seven samples were deemed inadequate for RT-PCR testing as a result of inappropriate tissue handling or the presence of necrotic material. Five patients were found to have a different diagnosis after complete histopathologic and molecular characterization. Six samples remained, in which adequate tissue was obtained with no evidence of a characteristic translocation. In apparently translocation-negative samples, close attention should be given to the possibility of an alternative diagnosis, the potential need for nested RT-PCR, and the possibility of an inadequate sample. Strong consideration should be given to the use of open biopsy as opposed to needle biopsy to avoid the need for repeat biopsies and the potential for inaccurate assessment of molecular marker status.
  Journal of Pediatric Hematology/Oncology 06/2001; 23(4):221-4. · 1.16 Impact Factor
• Article: Targeting tumor specific translocations in sarcomas in pediatric patients for immunotherapy.

  C Mackall, J Berzofsky, L J Helman
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  ABSTRACT: In an effort to develop more effective therapies for various sarcomas in pediatric patients, the authors have focused on using recurrent tumor-specific translocations as potential novel tumor antigens. In general, these translocations generate fusion transcription factors. Because cytotoxic T cell lymphocyte receptors recognize peptide fragments bound to major histocompatibility complex Class 1 molecules, it is possible that unique peptides spanning the translocation breakpoint region may be processed, bound to major histocompatibility complex Class I molecules and displayed on the tumor cell surface where they could be susceptible to cytotoxic T cell lymphocyte killing. The authors have investigated the PAX-3-FKHR fusion product seen in alveolar rhabdomyosarcoma, and the EWS-FLI-1 fusion product seen in Ewing's sarcoma. Peptides spanning these fusion regions contain potential major histocompatibility complex Class 1 and Class II binding motifs suggesting they may serve as novel T cell antigens. Preliminary mouse experiments suggest that cytotoxic T cell lymphocytes specific for the PAX-3-FKHR fusion peptide can be generated and can recognize and kill tumor cells bearing the PAX-3-FKHR fusion protein. Clinical trials are ongoing to determine whether this approach will be useful.
  Clinical Orthopaedics and Related Research 05/2000; · 2.53 Impact Factor