Project description:We have measured the proteomic changes on ANBL6, IH1, INA6, U266, KJON, OH2, VOLIN, LR5, KARPAS, RAMOS cell lines and used it to build a super SILAC library in order to quantify proteomic changes from MGUG to MM stages of Myeloma with Elite orbitrap mass spetrometer.

Project description:Plasma cell leukemia is a rare and aggressive plasma cell neoplasm that may either originate de novo (primary PCL) or by leukemic transformation of multiple myeloma (MM) to secondary PCL (sPCL). The prognosis of sPCL is very poor, and currently no standard treatment is available due to lack of prospective clinical studies. In an attempt to elucidate factors contributing to transformation, we have performed quantitative proteome profiling of malignant plasma cells collected from the same patient at both the MM and sPCL stages of the disease.

Project description:This series represents samples of multiple myeloma patients with and without bone lytic lesion by MRI.

Project description:Samples in this series are pre-treatment bone marrow aspirates from multiple myeloma patients Experiment Overall Design: Samples in this series are: Experiment Overall Design: 1. CD-138-selected plasma cells from bone marrow of newly diagnosed multiple myeloma patients susequently treated with Total Therapy 2 (pre-treatment TT2) Experiment Overall Design: 2. CD-138-selected plasma cells from bone marrow of newly diagnosed multiple myeloma patients susequently treated with Total Therapy 3 (pre treatment TT3). Experiment Overall Design: Overall Design: Experiment Overall Design: Baseline gene expression signatures were used to: 1) develop unsupervised hierarchical cluster classes; 2) establish links with outcome following stem cell transplantation

Project description:Samples in this series are pre-treatment bone marrow aspirates from multiple myeloma patients. Experiment Overall Design: Samples in this series are: Experiment Overall Design: 1. CD-138-selected plasma cells from bone marrow of patients with newly diagnosed multiple myeloma subsequently treated with high dose therapy and stem cell transplants termed Total Therapy 2 (pre-treatment TT2) Experiment Overall Design: 2. CD-138-selected plasma cells from bone marrow of patients with newly diagnosed multiple myeloma subsequently treated with Total Therapy 3 (pre treatment TT3). Experiment Overall Design: Overall Design: Experiment Overall Design: Gene expression signatures were used to: 1) develop unsupervised hierarchical cluster classes; 2) establish links with outcome following stem cell transplantation

Project description:Multiple myeloma (MM) evolves from highly prevalent premalignant condition termed Monoclonal Gammopathy of Undetermined Significance (MGUS). We report an MGUS-MM phenotype arising in transgenic mice with Emu-directed expression of the unfolded protein/ER stress response and plasma cell development spliced isoform factor XBP-1s. Emu-XBP-1s elicited elevated serum Ig and IL-6 levels, skin alterations and with advancing age, a significant proportion of Emu-xbp-1s transgenic mice develop features diagnostic of human MM including bone lytic lesions. Transcriptional profiles of Emu-xbp-1s B lymphoid and MM cells show aberrant expression of genes known to be dysregulated in human MM including Cyclin D1, MAF, MAFB, and APRIL. This genetic model coupled with documented frequent XBP-1s overexpression in human MM serve to implicate chronic XBP-1s dysregulation in the development of this common and lethal malignancy. Experiment Overall Design: In this study, we have explored the biological impact of sustained XBP-1s expression in the lymphoid system, anticipating that this genetic event would be a necessary component along with other MM-relevant oncogenes and tumor suppressor gene manipulations to generate a MM-prone mouse model. Unexpectedly, XBP-1s overexpression alone yielded an MGUS-MM disease bearing many features classical of the human disease on the clinical, pathological and molecular levels. Experiment Overall Design: We performed expression analysis of B cells derived from the spleen of 20-week old Emu-xbp-1s mice (n=5) and non-transgenic mice (n=5). Additionally, we analyzed the expression profiles from MM tumor cells arising in Emu-xbp-1s mice (n=6).

Project description:Withaferin A (WA), a natural steroid lactone from the plant Withania Somnifera, has been used for many years in traditional Ayurveda medicine to treat inflammation-related conditions, such as ulcers and rheumatism. Today, WA is most often studied because of its antitumor properties. Although many in vitro and in vivo studies have been performed, the identification of Withaferin A protein targets and of its mechanism of antitumor action remains incomplete. Here, we used quantitative chemoproteomics and differential protein expression analysis to characterize the WA antitumor effects on a multiple myeloma cell model. Identified relevant targets were further validated by Ingenuity Pathway Analysis (IPA) and Western Blot. Canonical pathway analysis revealed targeting of the ubiquitination pathway as a main strategy for WA-induced cell death. Further data suggested that WA targets protein networks that are specific for monoclonal gammopathy of undetermined significance (MGUS) and other closely related disorders, such as multiple myeloma (MM) and Waldenström macroglobulinemia (WM). Moreover, 16 of 20 proteins influenced by WA potentially counteract disease progression, suggesting WA can be used as an effective treatment for MGUS and other closely related disorders.

Project description:Multiple Myeloma primary myeloma cells of 131 patients, 10 human myeloma cell lines, bone marrow stromal cells of 5 myeloma patients, bone marrow CD3 cells of 5 myeloma patients, bone marrow CD14 cells of 5 myeloma patients, bone marrow CD15 cells of 5 myeloma patients, in vitro generated osteoclastic cells of 7 myeloma patients, 7 normal plasmablasts and 6 normal memory B cells.

Project description:The immunomodulatory drugs (IMiDs) lenalidomide and pomalidomide are highly effective treatments for multiple myeloma. However, virtually all patients eventually relapse due to acquired drug resistance with resistance-causing genetic alterations being found only in a small subset of cases. Here, we performed integrated global quantitative tandem mass tag (TMT)-based proteomic and phosphoproteomic analyses and RNA sequencing in five paired pre-treatment and relapse samples from multiple myeloma patients to investigate non-genetic resistance mechanisms. These analyses revealed a CDK6-governed protein resistance signature that includes myeloma high-risk factors such as TRIP13 and RRM1. Overexpression of CDK6 in multiple myeloma cell lines reduced sensitivity to IMiDs while CDK6 inhibition by palbociclib or CDK6 degradation by proteolysis targeting chimeras (PROTACs) is highly synergistic with IMiDs in vitro and in vivo. In conclusion, we found upregulation of CDK6 to cause lenalidomide resistance in multiple myeloma that can be overcome by pharmacological intervention.

Project description:Systems-wide profiling of breast cancer has so far built on RNA and DNA analysis by microarray and sequencing techniques. Dramatic developments in proteomic technologies now enable very deep profiling of clinical samples, with high identification and quantification accuracy. We analyzed 40 estrogen receptor positive (luminal), Her2 positive and triple negative breast tumors and reached a quantitative depth of more than 10,000 proteins. Comparison to mRNA classifiers revealed multiple discrepancies between proteins and mRNA markers of breast cancer subtypes. These proteomic profiles identified functional differences between breast cancer subtypes, related to energy metabolism, cell growth, mRNA translation and cell-cell communication. Furthermore, we derived a 19-protein predictive signature, which discriminates between the breast cancer subtypes, through Support Vector Machine (SVM)-based classification and feature selection. The deep proteome profiles also revealed novel features of breast cancer subtypes, which may be the basis for future development of subtype specific therapeutics.