Official Title
DNA Methylation in Allogeneic Hematopoietic Stem Cell Transplantation (MET_SCT_2018).
Brief Title
DNA Methylation in Allogeneic Hematopoietic Stem Cell Transplantation.
Protocol ID
NCT03871296
Lead Sponsor
IRCCS Azienda Ospedaliero-Universitaria di Bologna
Brief Summary
As a consequence of the impending increase in life expectancy, there is urgent need to
adopt life-saving interventions, such as hematopoietic stem cell transplantation, (SCT)
in groups of patients that have been regarded as unsuitable for such medical procedures
owing to their advanced age. However, a growing body of evidence shows that age per se
does not account for a reliable estimation of the capability of an individual to cope
with the stressful procedure of SCT and to deal with the cognate adverse effects. Recent
literature shows that changes in epigenetic markers (i.e. the extent of methylation) at
specific loci of genomic DNA marks the rate of aging and allows for the estimation of the
so called "biologic aging." In other words, individuals of the same chronologic age may
turn out to be older or younger respect when their biologic age is assessed. This latter
is expected to be tightly linked to changes in major homeostatic mechanisms and
consequently to be in relationship the chance of successful SCT. The primary objective of
the study is the study of DNA in patients undergoing allogeneic haematopoietic stem cell
transplantation. DNA will be assessed for the extent of methylation, which will be also
in relationship with circulating exogenous DNA (i.e the microbiome).
Detailed Description
The use of hematopoietic stem cell transplantation (SCT) in groups of patients previously
unsuitable because of age is progressively increasing. Nowadays, allogeneic SCT in
patients aged over 60 years represents approximately 18%. In the European SCT database,
the number of patients aged > 65 years was <1% up to 2000 and 6.7% after 2000. This trend
is the consequent to a growing clinical need caused to the progressive global aging of
general population and to the increasing proportion of subjects with good performance
status among elderly patients.
Fitness to transplantation is currently measured by the absence of the major
comorbidities assessed by Sorror's Comorbidity Index score (HCT-CI). The score correlates
with the outcome after transplant and provides clear indications on the intensity of the
chemotherapy to be administered in pre-transplant phase in order to reduce Non Relapse
Mortality (NRM).NRM is the mortality not due to the recovery of the disease; it can arise
from three orders of complications: immunological (Graft versus Host Disease -GVHD-);
infectious (opportunistic infections) and toxic (organ toxicity related to chemotherapy).
The intensity of conditioning regimen is reduced consequently in presence of comorbidity
and in the elderly patient, more frequently affected by comorbidities. But reducing the
intensity of conditioning regimen also means significantly increasing the probability of
relapse of haematological disease and therefore this reduction must be made on the basis
of indexes of aging and comorbidity, as mentioned above (HCT-CI), in order to not overly
reduce the curative potential of the transplant.This study aims to apply innovative
markers of biological age for the evaluation of SCT patients. Biological age assessment
is a rapidly expanding research area that has produced very promising results. Biological
age is an index composed of molecular markers (such as DNA methylation of nucleated blood
cells or the level of glycans associated with circulating proteins); it is strongly
related to chronological age, but is capable of expressing the speed of aging of the
single subject and consequently is able to highlight the risks for health associated with
aging, with more emphasis than chronological age. The recent literature clearly indicates
that DNA is also present in the non-cellular fraction, in the form of free DNA that it is
largely contained in the compartment of nanovesicles. In particular, it is interesting to
study if nanovesicles DNA can provide useful data regarding the epigenome and to verify
how the epigenome is linked with the presence of exogenous DNA, that is the
microbiome.This entity includes all the bacterial and viral species that coexist with
every human, mostly located in the gastrointestinal tract, and which are increasingly
determining to understand the pathogenesis of inflammatory and/or metabolic diseases, as
well as the biological bases of aging. In this regard, the recent literature shows a
close relationship between GVHD, viroma and intestinal microbiome.Epigenetics does not
specifically deal with the modification of the sequence of the subject's DNA but with all
the regulatory processes that influence gene expression. In particular, methylation is an
epigenetic modification of DNA. Therefore, epigenetic studies differ from classical
genetic studies in which the analysis of the exact DNA sequence of the subjects is
carried out. In this protocol, the investigators will refer to the "study of DNA" as the
study of its modifications in the methylation status and not in its sequence.
Primary objective of the study:
- Study of DNA in samples of patients undergoing allogeneic haematopoietic stem cell
transplantation. In particular, DNA will be extracted from leukocytes and plasma
extracellular nanovesicles. DNA will be assessed for the extent of methylation, which
will be also in relationship with circulating exogenous DNA (i.e the microbiome).
Secondary objectives:
- Study of DNA in urine and faeces samples of the same subjects to describe further
elements of the systemic microbiome - namely the urinary virome and the intestinal
microbiome-.
- Correlation of circulating epigenome and systemic microbiome with clinical outcomes
(overall survival, GVHD, incidence of infections) and comorbidity index (HCT-CI).
Exclusion criteria:
- Absence of signed informed consent.
No treatment is provided; patients will be treated and followed according to normal
clinical practice and according to international guidelines.
The visits and evaluations are those of routine practice will not be modified. Samples of
different biological materials will be taken at the start of recovery, at day -1, +1, and
after 1, 3, 6, 9, 12 months after transplantation. After discharge, all patients will be
followed as usual by the Day Hospital of the Transplant Unit of the Hematology Institute,
where the prospective collection of samples at defined times will continue.
The primary objective of the study is descriptive. The evaluation of the main clinical
variables is done with descriptive analysis (mean, median, range, etc.). Survival
analysis will be performed according to Kaplan-Meier methodology for censored data.
Regression analysis for censored data will be performed using Cox proportional risk
models.
The DNA methylation is expressed in terms of continuous variables, as a percentage of
methylation of the different analyzed gene loci. The analysis of methylation data will be
performed through a pipeline of algorithms developed by the proponents. The viromic data
are nominal variables (presence/absence of viral species).
The study is of exploratory nature and it is expected to enroll 50 patients.
Study Period
-
Enrollment Count
50 participants
Eligibility Criteria
Inclusion Criteria:
- Patients aged ≥ 18.
- Patients with haematological disease undergoing allogeneic haematopoietic stem cell
transplantation at "Seràgnoli" Hematology Institute, S. Orsola-Malpighi Hospital.
- Patients who consent to participate after signing written informed consent.
Exclusion Criteria:
- Absence of written informed consent.
Filters
Aging
Stem Cell Transplant Complications
UNKNOWN
ADULT
OLDER_ADULT