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Trial Title:
Mechanism of Action of Interferon in the Treatment of Myeloproliferative Neoplasms
NCT ID:
NCT05850273
Condition:
Myeloproliferative Neoplasm
Conditions: Official terms:
Neoplasms
Myeloproliferative Disorders
Conditions: Keywords:
interferon alpha
Hematopoietic stem cell
mechanism of action
Study type:
Observational
Overall status:
Recruiting
Study design:
Time perspective:
Prospective
Summary:
Classical BCR-ABL-negative myeloproliferative neoplasms (MPN) include: Polycythemia Vera
(PV), Essential Thrombocythemia (ET) and Primary Myelofibrosis (PMF). They are myeloid
malignancies resulting from the transformation of a multipotent hematopoietic stem cell
(HSC) caused by mutations activating the JAK2/STAT pathway. The most prevalent mutation
is JAK2V617F. Type 1 and Type 2 calreticulin (CALR) and thrombopoietin receptor (MPL)
mutations are also observed in ET and PMF. Additional non-MPN mutations affecting
different pathways are also found, particularly in PMF, and are involved in disease
initiation and/or in phenotypic changes and /or disease progression and/or response to
therapy.
There is an obvious and urgent need for an efficient therapy for MPN. In particular, PMF
remain without curative treatment, except allogeneic HSC transplantation and JAK
inhibitors have limited effects on the disease outcome. Among novel therapeutic
approaches, Peg-IFNα2a (IFN) is the most efficient harboring both high rates of
hematological responses in JAK2V617F and CALRmut MPN patients and some molecular
responses mainly in JAK2V617F patients including deep molecular response (DMR).
Nevertheless, several studies, including our own, have demonstrated that the IFN
molecular response in CALRmut patients is heterogeneous and overall much lower than in
JAK2V617F patients. Moreover, some JAK2V617F MPN patients do not respond to IFN, and DMR
is only observed in around 20% of JAK2V617F patients. Finally, long-term treatments are
needed (2-5 years) to obtain a DMR, jeopardizing its success due to possible long-term
toxicity.
The underlying reasons for failure, drug resistance, heterogeneous molecular response in
CALRmut patients and the long delays for DMR in JAK2V617F patients remain unclear,
largely because the mechanisms by which IFNα targets MPN malignant clones remain elusive.
Significant improvement of IFN efficacy cannot be achieved without basic and clinical
research. Hence our two lines of research are to
- Understand how IFNα specifically targets neoplastic HSCs
- Predicting and improving patient response during IFNα therapy
Detailed description:
Classical BCR-ABL-negative myeloproliferative neoplasms (MPN) include: Polycythemia Vera
(PV), Essential Thrombocythemia (ET) and Primary Myelofibrosis (PMF). They are myeloid
malignancies resulting from the transformation of a multipotent hematopoietic stem cell
(HSC) caused by mutations activating the JAK2/STAT pathway. The most prevalent mutation
is JAK2V617F. Type 1 and Type 2 calreticulin (CALR) and thrombopoietin receptor (MPL)
mutations are also observed in ET and PMF. Additional non-MPN mutations affecting
different pathways are also found, particularly in PMF, and are involved in disease
initiation and/or in phenotypic changes and /or disease progression and/or response to
therapy.
There is an obvious and urgent need for an efficient therapy for MPN. In particular, PMF
remain without curative treatment, except allogeneic HSC transplantation and JAK
inhibitors have limited effects on the disease outcome. Among novel therapeutic
approaches, Peg-IFNα2a (IFN) is the most efficient harboring both high rates of
hematological responses in JAK2V617F and CALRmut MPN patients and some molecular
responses mainly in JAK2V617F patients including deep molecular response (DMR).
Nevertheless, several studies, including our own, have demonstrated that the IFN
molecular response in CALRmut patients is heterogeneous and overall much lower than in
JAK2V617F patients. Moreover, some JAK2V617F MPN patients do not respond to IFN, and DMR
is only observed in around 20% of JAK2V617F patients. Finally, long-term treatments are
needed (2-5 years) to obtain a DMR, jeopardizing its success due to possible long-term
toxicity.
The underlying reasons for failure, drug resistance, heterogeneous molecular response in
CALRmut patients and the long delays for DMR in JAK2V617F patients remain unclear,
largely because the mechanisms by which IFNα targets MPN malignant clones remain elusive.
Significant improvement of IFN efficacy cannot be achieved without basic and clinical
research. Hence our two lines of research are to
- Understand how IFNα specifically targets neoplastic HSCs
- Predicting and improving patient response during IFNα therapy
The main objective from the basic point of view is to draw the clonal architecture of the
mutated cells of the patients during IFN treatment to provide a better understanding of
the mechanism of action of IFN in MPN: namely how and at what level of hematopoietic
differentiation the IFN specifically targets JAK2V617F HSCs and if and why it does not
have the same effect on CALRm patients.
Our previous clinical study using clonal architecture data combined with a mathematical
model indicates that depletion of JAK2V617F HSC by differentiation into progenitors and
thus loss of self-renewal may be the critical mechanism for eradication of JAK2V617F
disease by IFN. We hope to confirm this hypothesis in a larger number of patients and to
understand the basis of the differential effects of JAK2V617F and CALRm mutations on
disease-initiating stem cells.
The secondary objectives are to:
- Validate the resistance of CALRm patients to IFN treatment in a larger number of
patients. Moreover, high IFN doses, in contrast to JAK2V617F patients, are
deleterious to the molecular response for reasons that remain to be understood.
- Investigate the role of associated mutations in IFN-induced molecular responses.
IFN treatments have been shown to promote the appearance of clones (JAK2V617F positive or
JAK2V617F negative) with additional mutations, such as Tet2 or DNMT3a, which could be
responsible for resistance to IFN treatment . We would like to increase the number of
patients and their follow-up to analyze the role of these mutations in treatment success.
Moreover, these additional mutations (new or selected by the treatment) could favor the
development of more severe pathologies (MF, MDS, AML) than PV or TE and would be
important to monitor on the follow-up of IFN-treated patients.
-Explore in vitro the effect of IFN in combination with other molecules on primary
patients' cells. Indeed, our basic study already showed the involvement of PML in the
mechanism of action of IFN and we found that arsenic greatly potentiates the effect of
IFN. We will deeply investigate by which exact mechanisms.
All the data will be collected in patients before IFN treatment or during the IFN
treatment and data will be collected by single cell genotyping of colonies and/or by
single cell RNA sequencing coupled to genotyping of mutations and/or in vitro assays.
Criteria for eligibility:
Study pop:
The studied population will be all men and women of legal age who were not vulnerable and
whose diagnosis of MPN had been previously established by the referring physician. They
are therefore voluntary patients of legal age who are not vulnerable and who suffer from
PV, ET or MF. The selection of patients is according to the availability of the
caregivers for this study but with a preference for this second study towards CALRm
patients (rarer) rather than JAK2V617F. Our wish is to integrate a maximum of 50 patients
(10/year) knowing that the limitation is the capacity (personnel and finance) of our
INSERM laboratory to study this high number of patients.
Sampling method:
Probability Sample
Criteria:
Inclusion Criteria:
1. Adult male or female 18 years of age or older
2. Diagnosis of MPN has been previously established by the referring physician and that
physician will have decided to treat with pegylated IFN. Patients will be treated or
untreated at the time of inclusion and may be newly diagnosed patients.
3. These patients will be affiliated with or benefit from a social security plan
4. For all these patients an additional 20-40 mL will be collected except for some PV
patients who are treated conventionally by phlebotomy. In this case, we will collect
blood bags from these patients. The volumes vary between 300 and 450 mL of blood
depending on the weight and size of the patients.
5. We will also include in this protocol any patient whose MPN, either PV, TE or MF,
will have progressed to acute leukemia (AL) during treatment. These will be patients
with AP of MPN (MPN can also progress to acute myeloid leukemia (AML) by acute
transformation (AT) of MPN).
6. Patient with signed informed consent
Exclusion Criteria:
1. The non-inclusion criterion concerns the anemia that some MF patients may suffer
from. Therefore, patients with anemia (Hb<10g) or transfusion dependency (≥ 1 packed
red blood cell per month) at the time of the referral monitoring visit are not
included in the research.
2. Persons under court protection, guardianship or curatorship
Gender:
All
Minimum age:
18 Years
Maximum age:
N/A
Healthy volunteers:
No
Locations:
Facility:
Name:
Inserm U1287
Address:
City:
Villejuif
Zip:
94805
Country:
France
Status:
Recruiting
Contact:
Last name:
Isabelle Plo, PhD
Phone:
+33 1 42 11 54 93
Email:
isabelle.plo@gustaveroussy.fr
Contact backup:
Last name:
Léa Durix
Phone:
+33 1 42 11 54 93
Email:
lea.durix@gustaveroussy.fr
Investigator:
Last name:
Florence Pasquier, MD, PhD
Email:
Principal Investigator
Start date:
March 16, 2023
Completion date:
March 16, 2033
Lead sponsor:
Agency:
Institut National de la Santé Et de la Recherche Médicale, France
Agency class:
Other
Source:
Institut National de la Santé Et de la Recherche Médicale, France
Record processing date:
ClinicalTrials.gov processed this data on November 12, 2024
Source: ClinicalTrials.gov page:
https://clinicaltrials.gov/ct2/show/NCT05850273
