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Report for Mutation L265P

Developed by Shray Alag, 2020.
SNP Clinical Trial Gene

There are 10 clinical trials

Clinical Trials


1 Phase 1/2 Open-Label, Multiple-dose, Dose-escalation Study to Evaluate the Safety and Tolerability of IMO-8400 in Patients With Relapsed or Refractory Waldenstrom's Macroglobulinemia

Recent reports have identified a specific oncogenic mutation L265P of the MYD88 gene in approximately 90% of the patients with Waldenström's macroglobulinemia. MYD88 is a key linker protein in the signaling pathway of Toll Like Receptors (TLRs) 7, 8, and 9, and IMO-8400 is an oligonucleotide specifically designed to inhibit TLRs 7,8, and 9. The scientific hypothesis for use of IMO-8400 to treat patients with Waldenström's macroglobulinemia depends on the inhibition of mutant MYD88 signaling in the TLR pathway, thereby interrupting the proliferation of cell populations responsible for the propagation of the disease.

NCT02092909 Waldenstrom's Macroglobulinemia Drug: IMO-8400
MeSH:Waldenstrom Macroglobulinemia
HPO:Monoclonal immunoglobulin M proteinemia

Phase 1/2 Dose Escalation Study in Patients With Relapsed or Refractory Waldenstrom's Macroglobulinemia Recent reports have identified a specific oncogenic mutation L265P of the MYD88 gene in approximately 90% of the patients with Waldenström's macroglobulinemia. --- L265P ---

Primary Outcomes

Description: Safety and tolerability of IMO-8400 in patients with Waldenstrom's Macroglobulinemia: Assessment of adverse events

Measure: Safety and Tolerability of IMO-8400 in Patients With Waldenstrom's Macroglobulinemia

Time: Up to 24 weeks

Secondary Outcomes

Description: Best Overall Response using criteria from the VIth International Workshop in Waldenstrom's Macroglobulinemia

Measure: Best Overall Response

Time: Up to 24 weeks

Description: To identify an appropriate dose of IMO-8400 for further clinical evaluation via evaluation of DLT at each dose level

Measure: Identify the Number of Patients Experiencing DLTs at Each Dose Level

Time: 28 days

Description: Pharmacokinetics of escalating dose levels of IMO 8400 administered by SC injection - Cmax.

Measure: Pharmacokinetics of Escalating Dose Levels of IMO 8400 Administered by SC Injection - Cmax.

Time: Cycle 1 Week 1 Day 1: Samples were obtained pre-dose (within 1 hr prior to injection) and post-dose at 1 hr (+/-5 min), 2 hrs (+/-10 min) and 4 hrs (+/-15 min)

Description: Pharmacokinetics of escalating dose levels of IMO 8400 administered by SC injection - AUC0-t (hr*ng/mL) .

Measure: Pharmacokinetics of Escalating Dose Levels of IMO 8400 Administered by SC Injection - AUC0-t (hr*ng/mL)

Time: Cycle 1 Week 1 Day 1: Samples were obtained pre-dose (within 1 hr prior to injection) and post-dose at 1 hr (+/-5 min), 2 hrs (+/-10 min) and 4 hrs (+/-15 min)

2 Phase I/II Open-label, Multiple-dose, Dose-escalation Study to Evaluate the Safety and Tolerability of IMO-8400 in Patients With Relapsed or Refractory Diffuse Large B-Cell Lymphoma and Presence of the MyD88 L265P Mutation

Recent reports have identified a specific oncogenic mutation L265P of the MYD88 gene in approximately 30% of the patients with the activated B-cell (ABC) type of Diffuse Large B Cell Lymphoma (DLBCL). MYD88 is an initial adapter linker protein in the signaling pathway of the Toll Like Receptors (TLRs), including the endosomal TLRs 7, 8, and 9, for which the ligands are nucleic acids. IMO-8400 is an oligonucleotide specifically designed to inhibit ligand activation of TLRs 7,8, and 9. Recent studies indicate that in the presence of L265P mutation ligand activation of those TLRs results in markedly increased signaling with subsequent increased cell activation, cell survival, and cell proliferation. The scientific rationale for assessing the use of IMO-8400 to treat patients with DLBCL and the L265P mutation is based on laboratory observations that IMO-8400 inhibits ligand-based activation of cells with the mutation and decreases the survival and proliferation of the cell populations responsible for the propagation of the disease.

NCT02252146 Diffuse Large B Cell Lymphoma Drug: IMO-8400
MeSH:Lymphoma Lymphoma, B-Cell Lymphoma, Large B-Cell, Diffuse
HPO:B-cell lymphoma Lymphoma

Phase I/II Open-label, Multiple-dose, Dose-escalation Study to Evaluate the Safety and Tolerability of IMO-8400 in Patients With Relapsed or Refractory Diffuse Large B-Cell Lymphoma and Presence of the MyD88 L265P Mutation. --- L265P ---

Dose Escalation Study in Patients With Relapsed or Refractory DLBCL and MyD88 L265P Mutation Recent reports have identified a specific oncogenic mutation L265P of the MYD88 gene in approximately 30% of the patients with the activated B-cell (ABC) type of Diffuse Large B Cell Lymphoma (DLBCL). --- L265P ---

Dose Escalation Study in Patients With Relapsed or Refractory DLBCL and MyD88 L265P Mutation Recent reports have identified a specific oncogenic mutation L265P of the MYD88 gene in approximately 30% of the patients with the activated B-cell (ABC) type of Diffuse Large B Cell Lymphoma (DLBCL). --- L265P --- --- L265P ---

IMO-8400 is an oligonucleotide specifically designed to inhibit ligand activation of TLRs 7,8, and 9. Recent studies indicate that in the presence of L265P mutation ligand activation of those TLRs results in markedly increased signaling with subsequent increased cell activation, cell survival, and cell proliferation. --- L265P ---

The scientific rationale for assessing the use of IMO-8400 to treat patients with DLBCL and the L265P mutation is based on laboratory observations that IMO-8400 inhibits ligand-based activation of cells with the mutation and decreases the survival and proliferation of the cell populations responsible for the propagation of the disease. --- L265P ---

Inclusion Criteria: - Patients must have a diagnosis of Diffuse Large B Cell Lymphoma (DLBCL) of non-GCB subtype, established according to the World Health Organization (WHO) criteria that has been tested for the MyD88 L265P mutation. --- L265P ---

Being treated with other anti-cancer therapies (approved or investigational) 7. Has an active infection requiring systemic antibiotics 8. Has had surgery requiring general anesthesia within 4 weeks of starting the study 9. Has heart failure of Class III or IV Inclusion Criteria: - Patients must have a diagnosis of Diffuse Large B Cell Lymphoma (DLBCL) of non-GCB subtype, established according to the World Health Organization (WHO) criteria that has been tested for the MyD88 L265P mutation. --- L265P ---

Primary Outcomes

Description: Frequency of adverse events, injection site reactions, and concomitant medications observed

Measure: Number of Participants With Adverse Events, Injection Site Reactions, and Concomitant Medications

Time: Up to 2 years from first patient visit

3 Phase II Trial of Ixazomib, Dexamethasone and Rituximab in Patients With Untreated Waldenstrom's Macroglobulinemia

This research study is evaluating a drug called ixazomib (also known as MLN9708) in combination with dexamethasone and rituximab (the regimen is called IDR) as a possible treatment for Waldenstrom's Macroglobulinemia (WM).

NCT02400437 Waldenstrom's Macroglobulinemia Drug: Ixazomib Drug: Dexamethasone Drug: Rituximab
MeSH:Waldenstrom Macroglobulinemia
HPO:Monoclonal immunoglobulin M proteinemia

Response rate by MYD88 L265P and CXCR4-WHIM status. --- L265P ---

To evaluate the attainment of response, and depth of response and expression of MYD88 L265P and CXCR4-WHIM mutations in WM. --- L265P ---

Primary Outcomes

Description: Rate of very good partial response or better in patients treated with IDR

Measure: Very good partial response rate (VGPR) for IDR

Time: 76 weeks

Secondary Outcomes

Description: Overall response including the rate of complete response (CR), partial response (PR), minimal response (MR), stable disease (SD) and progressive disease (PD)

Measure: Overall response rate

Time: 2 Years

Measure: Progression-free survival (PFS)

Time: 4 years

Description: To evaluate the attainment of response, and depth of response and expression of MYD88 L265P and CXCR4-WHIM mutations in WM

Measure: Response rate by MYD88 L265P and CXCR4-WHIM status

Time: 2 Years

Measure: Disease free survival (DFS)

Time: 4 Years

Measure: Time to progression (TTP)

Time: 4 Years

Measure: Duration of Response (DOR)

Time: 4 Years

Measure: Time to Next Therapy (TTNT)

Time: 4 Years

4 Molecular Disease Profile of Haematological Malignancies. A Prospective Registry Study by the Rete Ematologica Lombarda (REL) Clinical Network

In this prospective multicentric study, the University of Pavia together with the Fondazione IRCCS Policlinico San Matteo, Pavia and the IRCCS Fondazione Maugeri, Pavia, Italy will provide a systematic analysis of gene mutations in hematological malignancies by using NGS techniques. Patients with a conclusive diagnosis of haematological malignancies according to WHO criteria referred to the Rete Ematologica Lombarda clinical network (REL, www.rel-lombardia.net) will be enrolled. The investigators will analyse genomic DNA extracted from hematopoietic cells at different time points of patient disease. The study contemplates the use of molecular platforms (Next Generation Sequencing, NGS) aimed at the identification of recurrent mutations in myeloid and lymphoid neoplasms, respectively. Screening of gene mutations by NGS will be prospectively implemented in the context of REL clinical network. Patient samples will be analyzed at diagnosis and sequentially during the course of the disease at specific timepoints. The researchers will analyze the correlations between somatic mutations, specific clinical phenotypes (according to the WHO classification) and disease evolution. This will allow to: 1) identify new recurrent genetic mutations involved in the molecular pathogenesis of hematological malignancies; 2) define the role of mutated genes, distinguishing between genes which induce a clonal proliferation of hematopoietic stem cells, and genes which determine the clinical phenotype of the disease; 3) identify mutations which are responsible for disease evolution; 4) define the diagnostic/prognostic role of the identified mutations, and update the current disease classifications and prognostic scores by including molecular parameters. A systematic biobanking of biological material will be provided.

NCT02459743 Hematological Malignancies
MeSH:Hematologic Neoplasms Neoplasms
HPO:Hematological neoplasm Leukemia Neoplasm

Moreover in last years, researchers from the University of Pavia gave a significant contribution in the definition of the molecular basis of lymphoid neoplasms (i.e., BRAF V600E mutation in Hairy cell Leukemia, MYD88 L265P mutation in Waldenstrom disease, and SF3B1 mutations in Chronic Lymphocytic Leukemia). --- V600E --- --- L265P ---

Primary Outcomes

Measure: Cumulative incidence of gene mutations in principal clone and subclones in each hematological malignancy

Time: 3 years

Secondary Outcomes

Measure: Genotype-phenotype correlations between clinical characteristics and mutational status

Time: 3 years

Measure: Overall survival and disease-free survival according to clinical and biological risk factors at diagnosis and during disease evolution

Time: 3 years

5 Study of Phosphatidylinositol-3-kinase (PI3K) Inhibitor, Idelalisib (GS-1101), in IgM-Associated AL Amyloid

The investigators expect to enroll 15 participants with relapsed or refractory IgM-associated AL amyloidosis onto this Phase II clinical trial. Idelalisib will be self-administered orally at a dose of 100 mg twice daily (may be increased to 150 mg (one tablet) twice daily after 3 months at investigator discretion). Participants will be treated until disease progression, unacceptable toxicity, or decision to withdraw from the trial. Disease evaluations will be performed every three months until disease progression.

NCT02590588 Amyloidosis Drug: Idelalisib
MeSH:Amyloidosis
HPO:Amyloidosis

IgM paraprotein identified on serum immunofixation electrophoresis OR light chain-restricted CD20+ lymphoplasmacytic population on biopsy of bone marrow or lymph node (identified by H&E/immunohistochemistry or flow cytometry) OR positive myeloid differentiation primary response gene 88 (MYD88-L265P) OR CXCR4WHIM mutation (CXCR4 mutation - warts, hypogammaglobulinemia, infections, myelokathexis) on submitted samples 3.1.2 --- L265P ---

Primary Outcomes

Description: Evaluate hematologic response according to standard criteria

Measure: Overall Response

Time: 3 months

Secondary Outcomes

Description: Evaluate time to progression

Measure: Progression Free Survival

Time: 1 year

Description: Number of patients with organ response using standard AL amyloidosis criteria.

Measure: Organ Response

Time: 3 months

Description: Number of Participants With Treatment-Related Adverse Events as Assessed by Common Toxicity Criteria for Adverse Effects (CTCAE) v4.0

Measure: Evaluate Safety and Tolerability of Agent

Time: 3 months

Description: Evaluate quality of life according to Functional Assessment of Cancer Therapy Lymphoma Subscale (FACT-Lym) assessment tool

Measure: Quality of Life

Time: 3 months

6 Expression of Ku70/XRCC6 and Others NHEJ Components in Waldenström's Macroglobulinemia in Comparison With Others B-cell Lymphoproliferative Disorders and Normal B Cells.

Waldenström's macroglobulinemia is a rare disease whose pathophysiology remains at present poorly understood, although a recurrent mutation (L265P MYD88) has recently been described. Unlike other lymphoproliferative disorders, there is a defect in isotype switching, mechanism involving AID and NHEJ complex. Using a two-dimensional electrophoresis technology, our group showed that MW had a specific proteomic profile, and one of the differentially expressed proteins is Ku70 (encoded by XRCC6 belonging to NHEJ complex) . The investigators purpose to explore the mechanisms of underexpression of Ku70/XRCC6 (genetic or epigenetic modification) in comparison with other lymphoid malignancies and normal B cells.

NCT02640287 Waldenström Macroglobulinemia Biological: Blood or bone marrow samples
MeSH:Waldenstrom Macroglobulinemia
HPO:Monoclonal immunoglobulin M proteinemia

Expression of Ku70/XRCC6 and Others NHEJ Components in Waldenström's Macroglobulinemia in Comparison With Others B-cell Lymphoproliferative Disorders and Normal B Cells.. Expression of Ku70/XRCC6 in Waldenström's Macroglobulinemia Waldenström's macroglobulinemia is a rare disease whose pathophysiology remains at present poorly understood, although a recurrent mutation (L265P MYD88) has recently been described. --- L265P ---

Inclusion Criteria: - Patient over 18 years, affiliated to the social regimen - Written consent collected MW group : - Patient with a diagnosis of MW according to WHO criteria (based on the results of serum protein electrophoresis, bone marrow analysis with immunophenotyping, cytogenetic analysis and mutation L265P MyD88) Other SLP : - Patient with diagnosis of Chronic Lymphocytic Leukemia, Splenic Marginal Zone Lymphoma or Multiple Myeloma Healthy volunteers : - volunteers without blood disorders Exclusion Criteria: - Women of childbearing age who do not have an effective means of contraception - Pregnant or nursing - Demonstration of a kappa or lambda monotype on B lymphocytes - healthy volunteer with B-cell malignancy Inclusion Criteria: - Patient over 18 years, affiliated to the social regimen - Written consent collected MW group : - Patient with a diagnosis of MW according to WHO criteria (based on the results of serum protein electrophoresis, bone marrow analysis with immunophenotyping, cytogenetic analysis and mutation L265P MyD88) Other SLP : - Patient with diagnosis of Chronic Lymphocytic Leukemia, Splenic Marginal Zone Lymphoma or Multiple Myeloma Healthy volunteers : - volunteers without blood disorders Exclusion Criteria: - Women of childbearing age who do not have an effective means of contraception - Pregnant or nursing - Demonstration of a kappa or lambda monotype on B lymphocytes - healthy volunteer with B-cell malignancy Waldenström Macroglobulinemia Waldenstrom Macroglobulinemia null --- L265P ---

Inclusion Criteria: - Patient over 18 years, affiliated to the social regimen - Written consent collected MW group : - Patient with a diagnosis of MW according to WHO criteria (based on the results of serum protein electrophoresis, bone marrow analysis with immunophenotyping, cytogenetic analysis and mutation L265P MyD88) Other SLP : - Patient with diagnosis of Chronic Lymphocytic Leukemia, Splenic Marginal Zone Lymphoma or Multiple Myeloma Healthy volunteers : - volunteers without blood disorders Exclusion Criteria: - Women of childbearing age who do not have an effective means of contraception - Pregnant or nursing - Demonstration of a kappa or lambda monotype on B lymphocytes - healthy volunteer with B-cell malignancy Inclusion Criteria: - Patient over 18 years, affiliated to the social regimen - Written consent collected MW group : - Patient with a diagnosis of MW according to WHO criteria (based on the results of serum protein electrophoresis, bone marrow analysis with immunophenotyping, cytogenetic analysis and mutation L265P MyD88) Other SLP : - Patient with diagnosis of Chronic Lymphocytic Leukemia, Splenic Marginal Zone Lymphoma or Multiple Myeloma Healthy volunteers : - volunteers without blood disorders Exclusion Criteria: - Women of childbearing age who do not have an effective means of contraception - Pregnant or nursing - Demonstration of a kappa or lambda monotype on B lymphocytes - healthy volunteer with B-cell malignancy Waldenström Macroglobulinemia Waldenstrom Macroglobulinemia null --- L265P --- --- L265P ---

Primary Outcomes

Description: Comparing the average level of expression of Ku70 in B cells measured in patients of WM, in patients other SLP and in healthy subjects (without MW and other SLP) , matched for age ( +/- 5 years) and sex

Measure: Measure of ratio Ku70/XRCC6

Time: Baseline

7 Observational Study of the Prevalence of Some Genetic Mutations in Patients With Neuropathy Associated With Anti-Myelin-associated Glycoprotein (MAG) Antibodies.

Anti-MAG (Myelin Associated Glycoprotein) neuropathy is related to clonal B lymphocyte proliferation producing an monoclonal immunoglobulin (IgM) with anti-MAG activity. IgM may be a reflection of malignant lymphoproliferative syndrome (Waldenström disease) or, more often, monoclonal gammopathy of unknown significance. The anti-MAG antibody has a direct toxicity on the myelin sheath of the peripheral nervous system responsible for a length-dependent demyelinating polyneuropathy. Clinically, this results in a sensitive, ataxic predominant polyneuropathy in the lower limbs, sometimes associated with a tremor of attitude and action tremor of the upper limbs. Clonal B cells at the origin of IgM production may have acquired mutations affecting MYD88 (MYD88 L265P mutation) and CXCR4 (Whim-like CXCR4 mutation). The prevalence of the MYD88 L265P mutation is estimated to be 50% in monoclonal gammopathies of undetermined significance and more than 80% in Waldenström disease. CXCR4 Whim-like mutations are found in 40% of patients with Waldenström's disease. No studies have reported the prevalence of these mutations in patients with anti-MAG neuropathies.

NCT03268161 Neuropathy Demyelinating Diagnostic Test: Mutational analysis of clonal B cells
MeSH:Peripheral Nervous System Diseases
HPO:Abnormal peripheral nervous system morphology Peripheral neuropathy Polyneuropathy

Clonal B cells at the origin of IgM production may have acquired mutations affecting MYD88 (MYD88 L265P mutation) and CXCR4 (Whim-like CXCR4 mutation). --- L265P ---

The prevalence of the MYD88 L265P mutation is estimated to be 50% in monoclonal gammopathies of undetermined significance and more than 80% in Waldenström disease. --- L265P ---

Prevalence of MYD88 L265P mutations in anti-MAG neuropathies. --- L265P ---

Mutational status of MYD88 L265P is assessed using high-throughput sequencing (HTS) and allele specific polymerase chain reaction (AS-PCR). --- L265P ---

Primary Outcomes

Description: Mutational status of MYD88 L265P is assessed using high-throughput sequencing (HTS) and allele specific polymerase chain reaction (AS-PCR)

Measure: Prevalence of MYD88 L265P mutations in anti-MAG neuropathies

Time: At inclusion : after the patient's given consent

Description: Mutational status of CXCR4 is assessed using HTS and AS-PCR

Measure: Prevalence of CXCR4 Whim-like mutations in anti-MAG neuropathies

Time: At inclusion : after the patient's given consent

Secondary Outcomes

Description: Immunoglobulin gene rearrangements are determined with a multiplex PCR

Measure: Immunoglobulin gene rearrangement

Time: At inclusion : after the patient's given consent

8 Non-invasive Diagnostics and Monitoring of Minimal Residual Disease and Clonal Evolution in Waldenström's Macroglobulinemia and in IgM Monoclonal Gammopathy of Undetermined Significance

Multicenter retrospective and prospective observational study including patients with WM or IgM-MGUS evaluated at the time of diagnosis and during the disease course using highly sensitive techniques.

NCT03521596 Waldenstrom Macroglobulinemia Other: MRD and clonal evolution
MeSH:Waldenstrom Macroglobulinemia
HPO:Monoclonal immunoglobulin M proteinemia

To demonstrate that the rate of mutations of MYD88 (L265P) and/or CXCR4 (S338X) detected in peripheral blood and/or urine show a negligible difference with the rate of mutations detected in bone marrow samples (BM, gold standard). --- L265P ---

Primary Outcomes

Description: To demonstrate that the rate of mutations of MYD88 (L265P) and/or CXCR4 (S338X) detected in peripheral blood and/or urine show a negligible difference with the rate of mutations detected in bone marrow samples (BM, gold standard)

Measure: Rate of mutation

Time: 22 months

9 Detection by Digital PCR and Next Generation Sequencing of Recurrent Mutations in Waldenström's Disease and Study of Their Distribution in the Different Biological Compartments

Waldenström's disease (WM) is a rare, low-grade lymphoid hematopathy, accounting for 1 to 2% of malignant hematopathies and mainly affecting the elderly. This disease is characterized by lymphoplasmocyte cells infiltration into the bone marrow and by the production of a monoclonal IgM protein in the serum. This disease is accompanied by clinical manifestations of hepato-splenomegaly, signs of hyperviscosity, peripheral neuropathies and biological signs with the presence of cytopenias and cryoglobulinemia. Some forms present node or splenic involvement. While the asymptomatic form maintains overall survival close to that of the healthy subject, the symptomatic form is subject to frequent relapses and remains incurable. Current recommendations for the diagnosis and monitoring of this disease are based on protein electrophoresis from a blood sample to quantify monoclonal IgM production and a myelogram or bone marrow biopsy showing medullary infiltration by lymphoplasmocytic cells. However, protein electrophoresis is an imprecise examination since it does not quantify tumour B lymphocytes and has limitations, particularly in the case of poorly secreting forms. More than 90% of Waldenström cases have the L265P mutation of the MYD88 gene. Although this mutation is not found only in these diseases, it can help in the diagnosis. Other mutations are also present in this pathology. These mutations can define prognostic factors or possibly make it possible to identify therapeutic targets. The development of new technologies makes it possible, on the one hand, to follow the L265P mutation of MYD88 over time as a marker of response to treatment and, on the other hand, to define these prognostic markers or therapeutic targets. This study will first determine the best method for monitoring the mutation of MYD88. In a second step, the investigators will evaluate the best type of sampling and in particular whether this mutation is present in the blood in order to limit the invasive procedures such as bone marrow sampling can be limited. Finally, the investigators will evaluate the prognostic

NCT03952052 Waldenstrom's Disease Other: Determination of mutation
MeSH:Osteochondritis

More than 90% of Waldenström cases have the L265P mutation of the MYD88 gene. --- L265P ---

The development of new technologies makes it possible, on the one hand, to follow the L265P mutation of MYD88 over time as a marker of response to treatment and, on the other hand, to define these prognostic markers or therapeutic targets. --- L265P ---

Finally, the investigators will evaluate the prognostic Quantification of MYD88 L265P mutation. --- L265P ---

Comparison of level of MYD88L265P mutationin different biological compartment c.. Allelic frequency of L265P mutation of MYD 88 gene. --- L265P ---

Inclusion Criteria: - Over 18 years of age - recently diagnosed for Waldenström's disease - not yet treated for Waldenström's disease Exclusion Criteria: - Pregnancy or breast feeding - HBV or HBC positive - HIV positive Inclusion Criteria: - Over 18 years of age - recently diagnosed for Waldenström's disease - not yet treated for Waldenström's disease Exclusion Criteria: - Pregnancy or breast feeding - HBV or HBC positive - HIV positive Waldenstrom's Disease Osteochondritis The L265P mutation of MYD88 appears as an early oncogenic event in the occurrence of Waldenström disease and may already be present at the Monoclonal Gammapathy of Undetermined Signification (MGUS) to IgM stage suggesting a continuum between the two stages of the disease. --- L265P ---

Monitoring the L265P mutation of MYD88 as a marker of minimal residual disease therefore appears to be a biomarker of major interest in these diseases. --- L265P ---

Several published studies show the interest of monitoring the L265P mutation of MYD88 in MW in particular by quantification of the mutation by allele-specific PCR. --- L265P ---

The originality of this study is based on the comparison of the quantification of the MYD88 L265P mutation in all affected biological compartments (blood, plasma, bone marrow or CD19+ cells) but especially in the monitoring of the mutation at two points of minimal residual disease (mid-treatment and end of treatment). --- L265P ---

One of the parts of the project is the study of the allelic frequency of the L265P mutation of the MYD88 gene in circulating tumor DNA (ctDNA). --- L265P ---

In this study, the allele frequency of the L265P mutation of MYD88 will be compared . --- L265P ---

Primary Outcomes

Description: Comparison of level of MYD88L265P mutationin different biological compartment c.

Measure: Quantification of MYD88 L265P mutation

Time: one year

Secondary Outcomes

Description: Comparison of allelic frequency determined by three different techniques (next generation sequencing, digital PCR and specific allele PCR)

Measure: Allelic frequency of L265P mutation of MYD 88 gene

Time: one year

Description: determination of the kinetics of mutation

Measure: Kinetics of mutation

Time: one year

10 A Multicenter, Open-Label Study to Investigate the Safety and Efficacy of ICP-022 in Patients With Relapsed/Refractory Diffuse Large B Cell Lymphoma (DLBCL)

It is a phase II, multicenter, open-label study is to evaluate the safety, efficacy and pharmacokinetics of a novel BTK inhibitor, ICP-022, in approximately 85 subjects with R/R DLBCL. There will be no control group in this study. Each subject will receive treatment orally every day in 28-day cycles. Each cycle starts immediately after the previously completed cycle without a break between cycles.

NCT04438005 Diffuse Large B Cell Lymphoma Drug: ICP-022
MeSH:Lymphoma Lymphoma, B-Cell Lymphoma, Large B-Cell, Diffuse
HPO:B-cell lymphoma Lymphoma

Key Inclusion criteria: 1. Men and women between 18 and 75 years old, 2. Histologically confirmed diffuse large B-cell lymphoma(DLBCL)with MyD88 L265P and CD79B positive, at least one measurable tumor of greater than 1.5 centimeter in long axis by contrast-enhanced CT/MRI, 3. ECOG performance status of 0-2, 4. Voluntary written informed consent prior to trail screening. --- L265P ---

Primary Outcomes

Description: The efficacy measured by overall response rate (ORR) according to the 2014 International Working Group NHL

Measure: Overall response rate(ORR)

Time: Up to 3 years

Secondary Outcomes

Description: The safety of ICP-022 measured by the occurrence of adverse events and serious adverse events according to NCI-CTCAE 5.0 grading criteria

Measure: Occurrence of adverse events and serious adverse events

Time: Up to 3 years

Description: The efficacy measured by progression free survival(PFS)

Measure: Progression free survival(PFS)

Time: Up to 3 years

Measure: Duration of response(DOR)

Time: Up to 3 years


HPO Nodes


HP:0002664: Neoplasm
Genes 1515
EPCAM BAP1 CYLD WT1 CTBP1 GLI3 CTNNB1 ELMO2 ATRX TERT EDN3 MTAP TSC2 RAD51 BLNK KCNAB2 WDPCP SPINK1 ARID1B PTEN STK11 XPA PTH1R TCF4 EPCAM NF1 GPC3 ERCC3 MC1R CASP10 PDGFRA RPL5 CDH1 BRIP1 RUNX1 KRAS SFTPC GPR35 MYLK STS DYNC2LI1 RAG2 CBL FOXE1 STAT3 TTC37 ABL1 NSD1 ATM KCNH1 GPR101 IGH KRT17 SUFU TERT KRAS GPC3 CYP11B2 MLH3 PTCH1 FAH MSH2 EXT1 CCND1 MSH3 ATP7A SEC23A PHOX2B HAX1 MYD88 LMO1 PIK3CA PRLR AXIN1 TCF4 RUNX1 AKT1 ERBB2 REST DCLRE1C SERPINA1 ERCC3 TMC6 RASA1 MSH3 TRNL1 CALR HRAS INS RNF113A SETBP1 CDH1 SLC37A4 TFAP2A CDH1 PTCH1 KIT PTEN IL1RN MLH3 MUTYH PTEN KIT GBA BCL2 KCNH1 GINS1 ESCO2 TET2 SLX4 DICER1 PALB2 NEK1 ESCO2 COL7A1 PTCH2 WT1 WRN GCM2 BRD4 BRAF TREX1 THPO SUFU NRAS CDC73 POU6F2 GNAS DAXX BUB3 RSPO1 MNX1 ERCC2 RPS28 ANTXR2 CTNNB1 POT1 FANCA KDM6B RET MST1 NOTCH3 FGFR1 KRAS LYST CHIC2 TMC6 MET KRT10 UROD SLC25A11 ARSA EVC2 TEK XRCC2 CASP8 ASCL1 IL1B TERF2IP DICER1 MPL OFD1 RHBDF2 DICER1 MDM2 WT1 MMP1 CDKN2A FGF8 NR4A3 FGFR2 OCRL TP53 ERCC2 SUFU ERCC4 ALX4 TINF2 DCLRE1C SRY SRP72 NF2 GNAS LETM1 TP53 FANCB TAL1 TDGF1 BRCA1 LEMD3 NF2 BRAF NUP214 RAD21 COL18A1 SDHD ICOS CEP57 BAP1 FANCM PTPRJ FANCE SLC22A18 PIK3R1 JAK2 FLT4 SMO WIPF1 DLST NF2 RAD50 MEN1 CHEK2 GPC4 WDPCP CYP2A6 HBB GANAB XRCC4 TET2 ATP7B EP300 DIS3L2 HFE CARD14 OFD1 ALX3 VANGL1 BAP1 SDHB EXTL3 PIK3CA GATA2 ALX3 BCL10 KIT WAS FGFR2 RMRP TWIST1 BMPR1B DIS3L2 ERCC3 FOXP1 SMAD4 CALR APC PCGF2 USP8 DMPK NRAS DKC1 BRCA1 ADAR BCR RSPO1 SLC45A2 GJC2 TNFRSF4 AKT1 IFIH1 MSH6 DICER1 PAX6 TGFBR2 SRY KLHDC8B CPLX1 MSH6 AIP PMS1 CREBBP ERCC2 CTSA APC MMP1 SH2B3 PKD1 TRNF SEC23B DNAJC21 STK11 BCR HBB MITF IGLL1 ALX4 MDH2 AKT1 SCN4A SDHAF2 PRKN PLA2G2A RNF43 DNMT3A TERT NSD2 RMRP FANCG BRCA2 CAT TP53 BMPR1A MAD2L2 SIX6 DDB2 GREM1 KRT17 PAX4 RPS17 TRPV3 ERCC4 C11ORF95 APC IL12RB1 BRIP1 PPM1D SDHB NODAL HNF1A FLT4 MSH6 ERCC6 BTK SLC26A4 SEMA3C AR NEK1 TERC RPL35A RPS20 CDKN1C SF3B1 TERC PTEN RFWD3 BRCA2 KCNQ1OT1 RPL10 ACTG2 MAGT1 ALK BLM H19 LEMD3 RPL31 MLLT10 PYGL RPL15 IRF1 CR2 MITF PTEN MYC PTPN11 TUBB TCF4 KCNQ1 NFKB2 ALX1 HLA-DRB1 APC EWSR1 NBN CDKN2A ERCC4 GCK DLL1 SLC25A11 PDGFB L2HGDH PRKCD CTC1 PIK3CA SUFU RPL27 KIF1B SRC CIB1 RECQL4 CDKN2B MSH3 BRCA2 PALB2 PDE6D SDHC SDHD CCL2 CHEK2 PMVK XPC STK11 PIK3CA MVD DHCR7 KIT GPC6 KARS1 MNX1 VHL TUBB NAB2 KEAP1 TSC1 NQO2 APC SDHB VHL TCTN3 RECQL4 PMS2 RAD51C STAG3 SNAI2 MAP3K8 SETBP1 SDHB NPM1 RAD51C RARA ERBB2 ERCC5 ATRX CHEK2 KRAS BRCA1 TFAP2A SLCO2A1 PHOX2B PTEN COL2A1 PIGL PDGFRA APC CPLANE1 AURKA SDHD LAMA3 VHL RPS26 GFI1B CDKN1B PRDM16 AXIN2 FZD2 AP2S1 LZTR1 TP53 TP53 GNA14 CTNNB1 MSTO1 PIK3CA RPS29 CALR DHX37 MYF6 SDHC MALT1 ELANE SDHD SLC26A4 MAP3K1 GDNF MSH2 SDHC TGFBR1 RUNX1 CREB1 CDKN2A TSC2 KRAS TNFRSF10B LMNA WWOX PHOX2B EDN3 RPS10 RSPRY1 TRIM37 RET MEN1 BCL10 MSH2 TNFRSF13C FOXE1 FANCC H19-ICR BLM ERCC6 LIG4 BDNF LMOD1 NF2 TMEM107 CYLD GJB2 EXT1 CTSC PHOX2B RAD51D RASGRP1 RB1 TGFBR2 SRY MYH8 KRAS TINF2 RECQL4 H19 PRF1 GDNF MXI1 SMPD1 WT1 HRAS COL1A1 PDGFRB FAS FANCD2 NF1 DISP1 PDGFRL IKBKG BIN1 BRCA2 ADA POLE AXIN2 SEMA4A KRAS NRAS PALB2 CHEK2 ASCL1 POLE TLR2 PIK3CA MINPP1 SOS1 CYLD CTLA4 POT1 ASXL1 CDC73 APC SAMD9L WT1 TRAF7 GATA4 PIK3CA DYNC2LI1 ATP7A CBFB MST1R GCGR MPL COL4A5 SMAD4 CDKN1A SDHD TRIM28 POLH GPR101 PIK3CA FLCN GPR143 RB1 SBDS SLC12A3 KLF6 ICOS GNB1 PIGA TYROBP GFI1 RAD51 SLC26A2 MC1R TREM2 SFTPA2 JAG1 BAP1 EGFR IGH KIT PLCB4 NLRP1 HNF1B ZFHX3 EPHB2 KLLN OCA2 WT1 FAH FH TERT SRD5A3 LIG4 NFKB1 RNF43 KIT STAT1 IFNG BMPR1A ERCC3 TBX18 TET2 MAP2K1 EXT2 HRAS RTEL1 FGFR3 PTEN CTNNB1 MAP2K2 MEN1 APC CLCNKB AKT1 ESCO2 CDC73 MS4A1 BRAF CRKL NUTM1 CDK4 NTHL1 ETV6 TET2 SQSTM1 FAM20C PIGL SEC23A ATM PALB2 TYR SRSF2 EXT2 GJB2 DNMT3A HRAS TCOF1 CHEK2 CDH1 FH DKC1 POLE PIK3CA PTCH2 AKT1 PAX3 FH ADAMTS3 APC PMS1 RAD51C PLCD1 PUF60 DIS3L2 CDH23 SCN9A FOXC2 SMARCB1 CDKN2A VANGL2 ENG SH2D1A SDHB SOX9 BRAF SDHA PGM3 ERCC2 GJB2 TBC1D24 CHD7 MPL DHH PTCH1 CALR IL12A TNFRSF13B CD28 MLH1 PTPN12 OFD1 MLH3 REST CCDC22 APPL1 COL14A1 IGH PSENEN IL2RG MC1R SMARCA4 CYLD KIF11 PHKG2 JAK2 COL2A1 AXIN2 FLNA WNT5A TYR EP300 GLI3 EXT2 MGAT2 KCNE3 ECE1 PARN IDH2 TSC1 ARL6IP6 FGFR3 SMAD4 HMBS SLC6A17 PRKAR1A BAP1 KDSR DHCR24 CXCR4 DDX41 GABRD RET NR0B1 DMRT3 CCND1 GDF5 POU6F2 CTLA4 TBXT FANCA NRTN PHKA2 KIT ITK RNASEH2A PERP CDC73 OFD1 CYP2D6 RET MEN1 CD27 PARN FUZ RPS19 MSH2 SMARCE1 TNFSF12 ZSWIM6 TERT RHOH NF1 BUB1B SLX4 LIG4 PDGFRL TNFSF15 OPCML APC PRKCD SETD2 RPS19 BRCA1 FAT4 ANTXR1 WNT10A SUFU TP63 EFL1 IL7 MN1 DOCK8 CDC73 SSX1 TMEM231 MPLKIP VHL MINPP1 BIRC3 PDX1 STS PSAP HNF1A JAK2 FANCL POT1 GNAS TERT CD79A KLF11 WRN MAPRE2 LIG4 CYSLTR2 DNM2 SH3GL1 KIT FOXH1 RELA KRAS PRKAR1A ERBB3 FGFR2 H19 TJP2 CD81 PNP MSH6 WT1 THPO ATP6V1B2 GNAQ BRCA1 WRAP53 ERCC3 CHRNG KRT14 TSC1 DLC1 CTNNB1 FGFRL1 SDHC GDNF HABP2 NRAS ATR TRNK BMPR1A TERT BRAF AKT1 XPC FGFR3 NUP214 TRIP13 SMARCD2 ZSWIM6 PIEZO2 EVC IL6 HRAS GPC4 TNFRSF13B PALLD CDKN2A POLR1D TP53 FOXO1 BRCA2 FIBP CDH23 RB1CC1 B3GALT6 FLT3 GJA1 SH2B3 MRAP MTOR AR FOXI1 TP53 GNAQ KRT6B MYD88 KRT16 TP53 NF1 MYSM1 MGMT KIT NF1 GPC4 GCM2 SIX3 PIK3CA RAD21 HRAS PMS2 ASCC1 BRCA2 GAS1 FASLG SDHD NRAS C2CD3 KDR SDHA SMAD4 SOX2 NBEAL2 SRGAP1 AGGF1 ATM AKT1 RPGRIP1L NOD2 BAX BRCA2 H19-ICR TGIF1 MAPK1 ESR1 EXT1 RPL11 KRAS BCL10 SKI LAMB3 XIAP SDHC HABP2 TRNS1 CCM2 FIBP PIK3CA TRIM28 HRAS SCN10A NF1 WT1 CPLANE1 HFE F5 C2CD3 GNPTAB TBX2 KLF6 GATA2 VEGFC RNASEH2B CBL SEMA3D ARMC5 CXCR4 JAK2 IGF2 FGFR2 NRAS UBE2T ARHGAP26 SCN11A MEN1 LMX1B F13A1 BCR COMP EDN1 SDHC ACTB GDNF CDKN2C ASPSCR1 NAGS PDGFRB PALB2 DLEC1 BCL10 STAR GNA11 PORCN RNR1 FLCN SPIB WT1 RET SDHB SLC22A18 ERCC4 CDKN2A CTHRC1 DLST OGG1 POLD1 DCC IL2RG REST SRP54 RAF1 TSC1 SRP54 IDH1 ACD KIT ACAN NSD2 TOP2A CASP10 DVL1 PTPN11 CASP10 STIM1 KRT9 AR CIB1 GNAS AR VAMP7 MRE11 GFI1 RPS14 BCL10 CACNA1S TP53 VANGL1 SKIV2L PTCH2 G6PC LRP5 PDGFRB BARD1 RPS27 RPS7 GNAS ENPP1 STAT6 ACVR1 MTM1 NEUROD1 TNFRSF13C PKD2 RUNX1 STK11 FGF3 TRIP13 SIX1 BRCA2 LAMC2 NELFA DVL3 GJB4 NSUN2 CDKN1B CTNNB1 POLR1C GJB3 SMARCB1 SBDS LMNA KRAS TRNH ECM1 STK4 ANTXR2 SOS1 BAP1 MSX2 DICER1 SDHB ACD WRAP53 BRCA1 ATP7A BUB1B RYR1 RET BRCA2 TP53 DPM1 BRCA2 BCR POLD1 TCIRG1 PTPN11 HOXD13 CR2 TARS1 JAK2 BMP2 MUTYH FLT3 TRNS2 MTMR14 NR5A1 ABCA5 RET AHCY TSC2 KIT KCNQ1OT1 RNF6 RAD54L HNF1A HMMR RNF139 WWOX TCTN3 BRAF FCN3 RNASEH2C AIP PRKN SF3B1 MSH6 NSD1 PTCH2 CCBE1 RECQL4 PMS2 ERCC2 HNF4A MMEL1 BUB1 TET2 TRPS1 ABCC6 RET IRF5 CDKN2B PDGFB USP9X TAL2 INTU GNAS HDAC4 MFN2 DYNC2H1 PIK3CA PLAG1 ATM MAX FAS PIK3CA CYP11B1 CCND1 H19-ICR PTCH1 MUTYH ABL1 ODC1 FGFR2 COL7A1 MSR1 BRCA1 RB1 TNFRSF1B COL7A1 FLT4 GPC3 TGFBR2 ATRX RAG1 PRCC BRAF TNFRSF1B FANCE RAD54L CBL SDHB TERT SDHD RPS24 FASLG MET KRT17 GATA1 ERBB2 FGFR1 KAT6B ABCA5 SDHAF2 SLC25A13 NOP10 GATA2 RFWD3 PDGFRA SPRTN MLH1 NKX2-1 IGF2R CD19 MAP3K1 TREX1 TRNP ZFPM2 CTNNB1 TRNQ WWOX IGHM MYH11 TMEM127 CDON NF2 SAMD9 PTEN RNASEL IDH2 HNF4A GTF2H5 GLI3 HRAS LPP DDB2 KIT PIK3CA PDCD10 HSPG2 HFE RPL26 BRIP1 ASXL1 SDHD CEBPA ACVRL1 NRAS CD19 GNAQ TET2 TCTN3 SMARCB1 FLCN ABCB11 BLK RAD54B SDHC FH AKT1 ANTXR1 FANCF HNF1B EXOC6B SAMHD1 SHOX MYO1H COL11A2 KCNJ10 TRIP13 CC2D2A LZTS1 SEC23B GPR101 DOCK8 BRCA2 NBN SLC26A2 SPRED1 VHL KRT1 LIN28B GTF2E2 NRAS ZIC2 SNAI2 SH3KBP1 SHOX BCL6 NTHL1 RHBDF2 CD28 MCM4 CCND1 FANCG SMARCAD1 GATA2 RERE YY1 ASXL1 IL7R TMEM67 C1S TAF1 FGFR3 NBN KRAS KIF1B AIP KCNJ11 LETM1 FANCI MLH1 MBTPS2 NRAS NEK9 GNAI3 APC2 EYA1 ZAP70 EXT2 BUB1 SSX2 LIG4 CARMIL2 SLC17A9 TMC8 PCNA EPAS1 TFE3 BRCA2 DHH MAP2K1 CASP8 CDK4 PDGFB RTEL1 EWSR1 PTEN VHL GJB6 NDP RNF6 TNPO3 TGFBR2 TXNRD2 PNP TAF15 TRNK SMO NOTCH1 LRRC8A RASA1 TSC2 ABCC8 PRKAR1A BAX IDH1 SLC22A18 ADA FAN1 TG PTEN BMPR1A MSTO1 ERCC5 IRF1 MLH1 NRAS MLH1 PICALM FANCD2 SF3B1 BICC1 RPS15A TERT KLLN ELANE FAM149B1 GATA1 SASH1 INPP5E TP53 WT1 BMPR1A PTPN11 PTPN11 MYCN XPA EDNRB TP53 FLI1 GDF2 PHB BMPER FGFR3 PTEN MCC EXT1 MC2R KCNN3 DNASE1L3 DHCR7 RASGRP1 SHH NPM1 SLC26A2 SLC37A4 IGF2 RPL18 SH2B3 PTCH1 BRAF PAX7 INHBA BMPR1A KIF7 XRCC3 IGF2 POU2AF1 DNAJC21 CYP26C1 RB1 MPL REST KIAA0753 DNMT3A ERCC6 MUC5B MLH3 ASXL1 MPL NOTCH3 KCNJ10 SMARCE1 TSR2 RPL10 KRT1 SLC25A13 WT1 NNT TP53 GNA11 GLI1 BARD1 FLCN COL7A1 SRP54 GLI2 EDN3 PTPN3 WT1 TMEM127 CD79B GATA2 TERC FN1 EIF2AK4 RAD51 WASHC5 SAMD9L AIP TP53 AAGAB RB1 TP53 KRT5 ADA2 HSPA9 PIK3CA SRSF2 PHF21A IDH1 KRAS KRAS CHEK2 BUB1B RET FANCC TP53 WHCR RAD54B NUMA1 SDHB HMBS TMEM216 SMAD4 MAFA MSH2 RPL35 CDKN1B IGF2 PPP2R1B CD70 CEL MAD1L1 MAX ALK GPC3 FERMT1 KIF1B TCF3 POLH PIK3R1 USF3 FDPS MYC DNAJC21 TNFSF12 HACE1 CDH1 SDHA ND5 NHP2 PIK3CA RPS14 NBN WNT10A ING1 CASR SUFU FGFR3 HPGD BTK ENG DCC CASP8 PHOX2B STAC3 USB1 KRIT1 PHOX2B TET2 SMAD4 JAK2 BCHE APC MVK SMAD7 SMO DKC1 SMARCB1 VHL F13B TINF2 USP8 FGFR1 FOXI1 TET2 CD96 TET2 JAK2 KRAS