Biobanking of Rett Syndrome and Related Disorders
Status: | Recruiting |
---|---|
Conditions: | Other Indications, Neurology |
Therapuetic Areas: | Neurology, Other |
Healthy: | No |
Age Range: | Any |
Updated: | 4/22/2018 |
Start Date: | September 1, 2017 |
End Date: | December 2019 |
Contact: | Alan K Percy, MD |
Email: | apercy@uab.edu |
Phone: | 2059964927 |
Biobanking of Rett Syndrome and Related Disorders Protocol
The overarching purpose of this study is to advance understanding of the natural history of
Rett syndrome (RTT), MECP2-duplication disorder (MECP2 Dup), RTT-related disorders including
CDKL5, FOXG1, and individuals with MECP2 mutations who do not have RTT. Although all these
disorders are the result of specific genetic changes, there remains broad clinical variation
that is not entirely accounted for by known biological factors. Additionally, clinical
investigators currently do not have any biomarkers of disease status, clinical severity, or
responsiveness to therapeutic intervention. To address these issues, biological materials
(DNA, RNA, plasma, cell lines) will be collected from affected individuals and in some cases
from unaffected family members, initial evaluation performed to identify additional
biological factors contributing to disease severity, and these materials will be stored for
future characterization.
Rett syndrome (RTT), MECP2-duplication disorder (MECP2 Dup), RTT-related disorders including
CDKL5, FOXG1, and individuals with MECP2 mutations who do not have RTT. Although all these
disorders are the result of specific genetic changes, there remains broad clinical variation
that is not entirely accounted for by known biological factors. Additionally, clinical
investigators currently do not have any biomarkers of disease status, clinical severity, or
responsiveness to therapeutic intervention. To address these issues, biological materials
(DNA, RNA, plasma, cell lines) will be collected from affected individuals and in some cases
from unaffected family members, initial evaluation performed to identify additional
biological factors contributing to disease severity, and these materials will be stored for
future characterization.
At the present time, effective treatments for RTT, MECP2 Dup, or Rett-related disorders are
lacking. Investigators have made substantial progress in RTT over the past eleven years such
that this study represents a narrowing of focus to mutations or duplications of the MECP2
gene and related disorders, including those with phenotypic overlap. Understanding of RTT has
advanced remarkably well through the Rett Syndrome Natural History Clinical Protocol (NHS)
and correspondingly advancement in the basic science realm has moved forward with equivalent
success. Thus, progress in clinical and basic science has led to the establishment of
clinical trials and other translational studies that hold promise for additional clinical
trials in future. In the process, however, investigators became aware of additional MECP2-
and RTT-related disorders that were unknown at the time the original proposal was conceived
and further were impressed by the substantial clinical variability in individuals with RTT
that cannot be explained by differences in mutations alone. In fact, variability among
individuals with identical mutations has led investigators to search for additional
explanations. At the time of the initial application (2002), just three years after the
identification of the gene, MECP2, as the molecular link to RTT, investigators were not aware
of the variation in clinical disorders related to MECP2 mutations or to the related but quite
different MECP2 Dup. Each disorder is characterized by significant neurodevelopmental
features related either to alterations in the MECP2 gene or related to phenotypes closely
resembling those seen in individuals with RTT. Further, the phenotypic overlap with RTT due
to mutations in CDKL5 and FOXG1 was also unexplored. The investigators propose in this new
study to build on the substantial progress made in understanding both classic and variant RTT
and to add these related disorders, MECP2 Dup and the Rett-related disorders including CDKL5,
FOXG1, and individuals with MECP2 mutations who do not have RTT. In conjunction with the
longitudinal clinical assessment performed via the natural history component, investigators
will systematically collect from all willing participant's blood and isolate plasma, DNA, and
RNA. All participants in the Natural History Study will be asked to contribute samples at the
initial visit, whereas samples will be collected repeatedly on a subset of participants in
order to look for changes over time. In order to identify factors that distinguish between
affected and unaffected individuals, as well as to have the potential to characterize the
heritability and potential consequences of genetic changes in families, samples will be
collected from unaffected family members. Additionally, on a subset of individuals chosen
because of unique clinical features skin biopsies and/or hair follicles will be collected to
establish cell lines. Investigators will ask all individuals providing samples to agree to
potential future whole-genome sequencing in order to be able to potentially evaluate for
genetic modifiers of these diseases.
These materials will be stored at a central repository (Greenwood Genetics Laboratory). The
main purpose of these samples is to serve as durable materials for future analyses, however,
a set of defined analyses will be performed on all samples. For the samples collected in the
Rett syndrome cohort, investigators will perform X-chromosome inactivation studies and
evaluate common polymorphisms in Brain derived neurotrophic factor (BDNF) and determine the
contribution of these known factors to disease severity. For MECP2 Dup cohort investigators
will characterize inflammatory markers in the plasma and correlate these with clinical
features. Also for MECP2 Dup cohort investigators will perform detailed genomic breakpoint
and gene content analysis and correlate this with disease severity. Similar analysis of
genomic breakpoints and gene content will be performed on people with FOXG1 Duplications.
Finally, in a pilot study, investigators will perform metabolic profiling on people from all
disorders and evaluate for metabolic features correlated with disease severity, and metabolic
features common or unique between these disorders. This work will provide a durable resource
for future analysis, extend understanding of genotype/phenotype correlations, identify other
biological factors contributing to disease severity, as well as provide the framework for the
development of biomarkers of disease state and severity.
lacking. Investigators have made substantial progress in RTT over the past eleven years such
that this study represents a narrowing of focus to mutations or duplications of the MECP2
gene and related disorders, including those with phenotypic overlap. Understanding of RTT has
advanced remarkably well through the Rett Syndrome Natural History Clinical Protocol (NHS)
and correspondingly advancement in the basic science realm has moved forward with equivalent
success. Thus, progress in clinical and basic science has led to the establishment of
clinical trials and other translational studies that hold promise for additional clinical
trials in future. In the process, however, investigators became aware of additional MECP2-
and RTT-related disorders that were unknown at the time the original proposal was conceived
and further were impressed by the substantial clinical variability in individuals with RTT
that cannot be explained by differences in mutations alone. In fact, variability among
individuals with identical mutations has led investigators to search for additional
explanations. At the time of the initial application (2002), just three years after the
identification of the gene, MECP2, as the molecular link to RTT, investigators were not aware
of the variation in clinical disorders related to MECP2 mutations or to the related but quite
different MECP2 Dup. Each disorder is characterized by significant neurodevelopmental
features related either to alterations in the MECP2 gene or related to phenotypes closely
resembling those seen in individuals with RTT. Further, the phenotypic overlap with RTT due
to mutations in CDKL5 and FOXG1 was also unexplored. The investigators propose in this new
study to build on the substantial progress made in understanding both classic and variant RTT
and to add these related disorders, MECP2 Dup and the Rett-related disorders including CDKL5,
FOXG1, and individuals with MECP2 mutations who do not have RTT. In conjunction with the
longitudinal clinical assessment performed via the natural history component, investigators
will systematically collect from all willing participant's blood and isolate plasma, DNA, and
RNA. All participants in the Natural History Study will be asked to contribute samples at the
initial visit, whereas samples will be collected repeatedly on a subset of participants in
order to look for changes over time. In order to identify factors that distinguish between
affected and unaffected individuals, as well as to have the potential to characterize the
heritability and potential consequences of genetic changes in families, samples will be
collected from unaffected family members. Additionally, on a subset of individuals chosen
because of unique clinical features skin biopsies and/or hair follicles will be collected to
establish cell lines. Investigators will ask all individuals providing samples to agree to
potential future whole-genome sequencing in order to be able to potentially evaluate for
genetic modifiers of these diseases.
These materials will be stored at a central repository (Greenwood Genetics Laboratory). The
main purpose of these samples is to serve as durable materials for future analyses, however,
a set of defined analyses will be performed on all samples. For the samples collected in the
Rett syndrome cohort, investigators will perform X-chromosome inactivation studies and
evaluate common polymorphisms in Brain derived neurotrophic factor (BDNF) and determine the
contribution of these known factors to disease severity. For MECP2 Dup cohort investigators
will characterize inflammatory markers in the plasma and correlate these with clinical
features. Also for MECP2 Dup cohort investigators will perform detailed genomic breakpoint
and gene content analysis and correlate this with disease severity. Similar analysis of
genomic breakpoints and gene content will be performed on people with FOXG1 Duplications.
Finally, in a pilot study, investigators will perform metabolic profiling on people from all
disorders and evaluate for metabolic features correlated with disease severity, and metabolic
features common or unique between these disorders. This work will provide a durable resource
for future analysis, extend understanding of genotype/phenotype correlations, identify other
biological factors contributing to disease severity, as well as provide the framework for the
development of biomarkers of disease state and severity.
Inclusion Criteria:
- Individuals of both genders and of all ages, with RTT, MECP2 Dup, and, RTT-related
disorders including those with mutations or deletions in CDKL5 and FOXG1 genes, or
those with RTT (atypical or typical) who are mutation negative. Additionally,
unaffected family members of those people who meet the disease specific criteria
stated will eligible.
Exclusion Criteria:
- Individuals who do not meet the above criteria will be excluded.
We found this trial at
14
sites
1653 W. Congress Parkway
Chicago, Illinois 60612
Chicago, Illinois 60612
(312) 942-5000
Principal Investigator: Peter Heydemann, MD
Phone: 312-942-0079
Rush University Medical Center Rush University Medical Center encompasses a 664-bed hospital serving adults and...
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1720 2nd Ave S
Birmingham, Alabama 35233
Birmingham, Alabama 35233
(205) 934-4011
Principal Investigator: Alan Percy, MD
Phone: 205-934-1130
University of Alabama at Birmingham The University of Alabama at Birmingham (UAB) traces its roots...
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1200 Moursund Street
Houston, Texas 77030
Houston, Texas 77030
(713) 798-4951
Principal Investigator: Daniel G Glaze, MD
Phone: 832-822-7388
Baylor College of Medicine Baylor College of Medicine in Houston, the only private medical school...
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South 34th Street
Philadelphia, Pennsylvania 19104
Philadelphia, Pennsylvania 19104
215-590-1000
Principal Investigator: Eric Marsh, MD, PhD
Phone: 267-426-5171
Children's Hospital of Philadelphia Since its start in 1855 as the nation's first hospital devoted...
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60 Crittenden Blvd # 70
Rochester, New York 14642
Rochester, New York 14642
(585) 275-2121
Principal Investigator: Alex Paciorkowski, MD, PhD
University of Rochester The University of Rochester is one of the country's top-tier research universities....
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Boston, Massachusetts 02115
Principal Investigator: Mustafa Sahin, MD, PhD
Phone: 617-355-5230
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Denver, Colorado 80291
Principal Investigator: Tim Benke, MD, PhD
Phone: 720-777-5514
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Greenwood, South Carolina 29646
Principal Investigator: Mike Friez, PhD
Phone: 888-442-4363
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Minneapolis, Minnesota
Principal Investigator: Arthur Beisang, MD
Phone: 651-325-2331
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2201 West End Ave
Nashville, Tennessee 37232
Nashville, Tennessee 37232
(615) 322-7311
Principal Investigator: Sar Peters, PhD
Phone: 615-343-4586
Vanderbilt University Vanderbilt offers undergraduate programs in the liberal arts and sciences, engineering, music, education...
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Oakland, California 94609
Principal Investigator: Mary Jones, MD
Phone: 510-428-3885
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1 Childrens Place
Saint Louis, Missouri 63110
Saint Louis, Missouri 63110
Principal Investigator: Robin Ryther, MD, PhD
Phone: 314-454-4267
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San Diego, California 92093
Principal Investigator: Jeffrey L Neul, MD, PhD
Phone: 858-246-2288
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