Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0026764 (multiple myeloma)
 36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations in genes regulating cell cycle and apoptosis are considered major culprits for the malignant transformation of cancer cells. Aberrant activation of the Hedgehog (HH) signaling pathway which primarily regulates genes involved in cell growth, proliferation, survival and apoptosis has been demonstrated in multiple myeloma. Mutations resulting in defective components of the p53 pathway, which serves a critical role in mediating cellular stress response by triggering DNA repair, cell cycle arrest, senescence and apoptosis, have also been identified. This study focuses on detecting copy number variations for the GLIPR1/GLIPR1L1/GLIPR1L2 gene cluster of the p53 pathway and three elements of the HH pathway, SHH, PTCH1 and GLI3 in multiple myeloma (MM) using fluorescence in situ hybridization (FISH). In eighteen samples, there was no evidence of abnormal copy number for PTCH1, GLI3 or SHH. Thus, it is unlikely that copy number variations of these genes are linked to multiple myeloma. However, a deletion of the GLIPR1/GLIPR1L1/ GLIPR1L2 gene cluster, all p53 targets, was found in three of 32 samples (9.4%) indicating that these deleted genes may have significant implications in MM. Further studies should be performed to determine the role of the GLIPR1/GLIPR1L1/GLIPR1L2 gene cluster in the pathogenesis of multiple myeloma.
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PMID:Examining Hedgehog pathway genes GLI3, SHH, and PTCH1 and the p53 target GLIPR1/GLIPR1L1/GLIPR1L2 gene cluster using fluorescence in situ hybridization uncovers GLIPR1/GLIPR1L1/GLIPR1L2 deletion in 9% of patients with multiple myeloma. 2097 42

Immunoglobulin light-chain amyloidosis (AL) and multiple myeloma (MM) are 2 distinct monoclonal gammopathies that involve the same cellular compartment: clonal plasma cells (PCs). Despite the fact that knowledge about MM PC biology has significantly increased in the last decade, the same does not apply for AL. Here, we used an integrative phenotypic, molecular, and genomic approach to study clonal PCs from 24 newly diagnosed patients with AL. Through principal-component-analysis, we demonstrated highly overlapping phenotypic profiles between AL and both monoclonal gammopathy of undetermined significance and MM PCs. However, in contrast to MM, highly purified fluorescence-activated cell-sorted clonal PCs from AL (n = 9) showed almost normal transcriptome, with only 38 deregulated genes vs normal PCs; these included a few tumor-suppressor (CDH1, RCAN) and proapoptotic (GLIPR1, FAS) genes. Notwithstanding, clonal PCs in AL (n = 11) were genomically unstable, with a median of 9 copy number alterations (CNAs) per case, many of such CNAs being similar to those found in MM. Whole-exome sequencing (WES) performed in 5 AL patients revealed a median of 15 nonrecurrent mutations per case. Altogether, our results show that in the absence of a unifying mutation by WES, clonal PCs in AL display phenotypic and CNA profiles similar to MM, but their transcriptome is remarkably similar to that of normal PCs.
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PMID:Phenotypic, transcriptomic, and genomic features of clonal plasma cells in light-chain amyloidosis. 2706 57

Multiple myeloma, a plasma cell malignancy, is a genetically heterogeneous disease and the genetic factors that contribute to its development and progression remain to be fully elucidated. The tumour suppressor gene GLIPR1 has previously been shown to be deleted in approximately 10% of myeloma patients, to inhibit the development of plasma cell tumours in ageing mice and to have reduced expression levels in the plasma cells of patients with light-chain amyloidosis, a myeloma-related malignancy. Therefore, we hypothesised that GLIPR1 may have tumour suppressor activity in multiple myeloma. In this study, we demonstrate that plasma cell expression of GLIPR1 is reduced in the majority of myeloma patients and Glipr1 expression is lost in the 5TGM1 murine myeloma cell line. However, overexpression of GLIPR1 in a human myeloma cell line did not affect cell proliferation in vitro. Similarly, re-expression of Glipr1 in 5TGM1 cells did not significantly reduce their in vitro proliferation or in vivo growth in C57BL/KaLwRij mice. In addition, using CRISPR-Cas9 genome editing, we generated C57BL/Glipr1-/- mice and showed that loss of Glipr1 in vivo did not affect normal haematopoiesis or the development of monoclonal plasma cell expansions in these mice up to one year of age. Taken together, our results suggest that GLIPR1 is unlikely to be a potent tumour suppressor in multiple myeloma. However, it remains possible that the down-regulation of GLIPR1 may cooperate with other genetic lesions to promote the development of myeloma.
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PMID:GLIPR1 expression is reduced in multiple myeloma but is not a tumour suppressor in mice. 3199 27