2021
DOI: 10.1002/cnr2.1524
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Serum proteome modulations upon treatment provides biological insight on response to treatment in relapsed mantle cell lymphoma

Abstract: Background: The possibility to monitor patient's serum proteome during treatment can provide deepened understanding of the biology associated with response to specific drugs. Non-invasive serum sampling provides an opportunity for sustainable repetitive sampling of patients, which allows for more frequent evaluation of the biological response and enhanced flexibility in treatment selection in contrast to tissue biopsies. Aim: To pin-point biologically relevant changes in pre-and on-treatment serum proteome sam… Show more

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Cited by 2 publications
(2 citation statements)
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“…Assessment of the healthy B cell pool of patients to find disease mechanisms [128] DLBCL Evaluation of the intertumoral and intratumoral heterogeneity [129] Identification of clinically relevant interactions between tumor-associated macrophages and blood endothelial cells [130] Finding proteins overexpressed in relapsed and refractory patients [131] Comparison of major immune subsets in DLBCL and double-hit lymphoma [132] Identification of differences in immune cell compartments across various stages of MM and healthy individuals [133] Description of the immune tumor microenvironment in patients with MGUS and MM at diagnosis and post-initial therapies [134] Analysis of the immune checkpoint signature and regulation [135] Characterization of NK cells in newly diagnosed cases [136] Understanding of the molecular and cellular complexities underlying disease heterogeneity and prognosis [137] Provision of insights into the mechanism of action of daratumumab and the anti-PD-L1 monoclonal antibody atezolizumab [138] MM Employment of protein profiling as a tool for prognosis and treatment stratification [139] Other Tools RRPA CLL Prediction of survival outcomes based on the proteomic signature [140] Protein Microarrays FL Identification of antibodies that distinguish lymphoid follicles in FL and benign follicular hyperplasia [141] MCL Monitoring of patient serum proteomes to identify treatment-modulated proteins linked to the presence of minimal residual disease [142] Western Blot MCL Definition of the pathologic hallmark of MCL as a tool for the diagnosis [143] araCTP, Next, we describe the basis of the main protein-based strategies employed for studying B cell malignancies.…”
Section: Analysis Of the Tumor Microenvironment To Find Differences I...mentioning
confidence: 99%
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“…Assessment of the healthy B cell pool of patients to find disease mechanisms [128] DLBCL Evaluation of the intertumoral and intratumoral heterogeneity [129] Identification of clinically relevant interactions between tumor-associated macrophages and blood endothelial cells [130] Finding proteins overexpressed in relapsed and refractory patients [131] Comparison of major immune subsets in DLBCL and double-hit lymphoma [132] Identification of differences in immune cell compartments across various stages of MM and healthy individuals [133] Description of the immune tumor microenvironment in patients with MGUS and MM at diagnosis and post-initial therapies [134] Analysis of the immune checkpoint signature and regulation [135] Characterization of NK cells in newly diagnosed cases [136] Understanding of the molecular and cellular complexities underlying disease heterogeneity and prognosis [137] Provision of insights into the mechanism of action of daratumumab and the anti-PD-L1 monoclonal antibody atezolizumab [138] MM Employment of protein profiling as a tool for prognosis and treatment stratification [139] Other Tools RRPA CLL Prediction of survival outcomes based on the proteomic signature [140] Protein Microarrays FL Identification of antibodies that distinguish lymphoid follicles in FL and benign follicular hyperplasia [141] MCL Monitoring of patient serum proteomes to identify treatment-modulated proteins linked to the presence of minimal residual disease [142] Western Blot MCL Definition of the pathologic hallmark of MCL as a tool for the diagnosis [143] araCTP, Next, we describe the basis of the main protein-based strategies employed for studying B cell malignancies.…”
Section: Analysis Of the Tumor Microenvironment To Find Differences I...mentioning
confidence: 99%
“…Specific proteins, such as TGF-β1, CD40, and complement component 4, were linked to the presence of minimal residual disease in the treated samples. Elevated BTK levels were also associated with shorter PFS [142]. In another study, LC-MS/MS analysis of salivary samples before, during, and after chemotherapy provided valuable insights into the dynamics of the disease and response to treatment [99].…”
Section: Proteomics Studies On Mantle Cell Lymphoma (Mcl)mentioning
confidence: 99%