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Immunophenotyping and Xist Gene in AML

NCT04288739 · Status: UNKNOWN · Type: OBSERVATIONAL · Enrollment: 65

Last updated 2020-07-09

No results posted yet for this study

Summary

Acute myeloid leukemia (AML) is a heterogeneous disorder characterized by clonal expansion of myeloid progenitors (blasts) in the bone marrow and peripheral blood.Several studies have reported correlations of aberrantly expressed markers by flowcytometry with clinical outcome in AML. X-inactive specific transcript RNA was one of the first long noncoding RNAs (lncRNAs) to be discovered in the early 1990s. Xist RNA is the master regulator of XCI, the epigenetic process that equalizes the dosage of X-linked genes between female (XX) and male (XY) mammals. Yildirim et al., (2013) deleted Xist in the blood compartment of mice and demonstrated that mutant females developed a highly aggressive myeloproliferative neoplasm and myelodysplastic syndrome (mixed MPN/MDS) with 100% penetrance.

Their study implies that human hematologic cancers may result from overdosage of X, either from Xist loss on Xi or from duplication of Xa. And they proposed that carcinogenesis is driven by a series of changes occurring in the HSC and further accumulated in mature hematopoietic cells. These changes are initiated by loss of Xist, which leads to progressive X reactivation, which in turn induces a cascade of unfavorable genome-wide changes that include dysregulation of genes involved in DNA replication, chromosome segregation, cell-cycle checkpoints, and hematopoiesis. A failure of HSC maturation and loss of long-term HSC in the marrow progressively shift hematopoiesis to extramedullary sites resulting in extra medullary hematopoiesis (EMH), thereby causally linking the X chromosome to cancer in mice. Thus, they concluded that Xist RNA not only is required to maintain XCI but also suppresses cancer in vivo.

Indeed, the emerging role of aberrant gene dosage in diseases, whether of the X chromosome or for autosomes, brings with it the possible application of drugs that impact on epigenetic regulators in potential therapeutic strategies.

To date, there are no published studies on human about Xist gene and its relationship with the immunophenotyping in AML patients. So, this will be the first study designed to explain its unexplored pathway in AML and detect its prognostic role and immunophenotypic association.

Conditions

Interventions

DIAGNOSTIC_TEST

flow cytometric immunophenotyping

Flow cytometric (FCM) immunophenotypic analysis of peripheral blood or bone marrow aspiration samples will be performed using a panel of monoclonal antibodies (HLA DR, CD34, CD117, Cyto MPO, CD13, CD33, CD3, CD4, CD8, CD10, CD19, CD5, CD14, CD64, CD36, CD235a, cyto CD41, cyto CD61).

GENETIC

Xist gene by fluorescence insitu hybridization

Fluorescence in situ hybridization (FISH) is a kind of cytogenetic technique that allows the visualization of defined nucleic acid sequences in particular cellular or chromosomal sites by hybridization of complementary fluorescently labeled probe sequences within intact metaphase or interphase cells. The fluorescent probes are nucleic acid labeled with fluorescent groups and can bind to specific DNA/RNA sequences. Fluorescence microscopy can be used to find out where the fluorescent probe is bound to the chromosomes.

Sponsors & Collaborators

  • Assiut University

    lead OTHER

Principal Investigators

  • Shaaban R. Helal, MD · faculty of medicine

Eligibility

Sex
ALL
Healthy Volunteers
No

Timeline & Regulatory

Start
2020-10-02
Primary Completion
2022-05-30
Completion
2022-12-31

Countries

  • Egypt

Study Locations

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Entities

Diseases

Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT04288739 on ClinicalTrials.gov