Chromosomal breakage tests in the differential diagnosis of Fanconi anemia and aplastic anemia.

BACKGROUND: FA patients are hypersensitive to preconditioning of bone marrow transplantation. OBJECTIVE: Assessment of the power of mitomycin C (MMC) test to assign FA patients. METHODS: We analysed 195 patients with hematological disorders using spontaneous and two types of chromosomal breakage tests (MMC and bleomycin). In case of presumed Ataxia telangiectasia (AT), patients' blood was irradiated in vitro to determine the radiosensitivity of the patients. RESULTS: Seven patients were diagnosed as having FA. The number of spontaneous chromosomal aberrations was significantly higher in FA patients than in aplastic anemia (AA) patients including chromatid breaks, exchanges, total aberrations, aberrant cells. MMC-induced ≥10 break/cell was 83.9 ± 11.4% in FA patients and 1.94 ± 0.41% in AA patients (p < .0001). The difference in bleomycin-induced breaks/cell was also significant: 2.01 ± 0.25 (FA) versus 1.30 ± 0.10 (AA) (p = .019). Seven patients showed increased radiation sensitivity. Both dicentric + ring, and total aberrations were significantly higher at 3 and 6 Gy compared to controls. CONCLUSIONS: MMC and Bleomycin tests together proved to be more informative than MMC test alone for the diagnostic classification of AA patients, while in vitro irradiation tests could help detect radiosensitive-as such, individuals with AT.

Genetic analysis of a Fanconi anemia case revealed the presence of FANCF mutation (exon 1;469>C-T) with implications to develop acute myeloid leukemia.

BACKGROUND: Fanconi anemia (FA) is a rare genetic disorder and one of the most common inherited forms of aplastic anemia. FA is an autosomal recessive or X-linked genetic disorder that is characterized by typical physical malformations and haematopoietic anomalies. In most cases of FA, patients harbor homozygous or double heterozygous mutations in the FANCA (60-65%), FANCC (10-15%), FANCG (~ 10%), FANCD2 (3-6%) or FANCF (2%) genes in different ethnic populations, which leads to inherited bone marrow failure (IBMF). Hence, it is important to screen such mutations in correlation with clinical manifestations of FA in various ethnic populations. APPROACH: An 11 year old female pediatric patient of an East India family was presented with febrile illness, having thrombocytopenia with positive dengue IgM (Immunoglobulin M) and treated as a case of dengue hemorrhagic fever at the initial stage of diagnosis. Chromosomal breakage study was performed based on the abnormal physical examination, which showed 100% breaks, triradials, and quadrilaterals in mitomycin (MMC)-induced peripheral blood lymphocyte culture. Importantly, conventional cytogenetic assay in most of the bone marrow cells revealed an additional gain in chromosome 3q+ [46,XX,add(3)(q25)] and terminal loss in chr8p- [46,XX,del(8)(p23)], which might have a prognostic relevance in the outcomes of the FA patient. The bone marrow aspiration and biopsy were repeated and the results showed acute leukemia with 39% blast cells. Whole-genome sequencing analysis of the patient confirmed the presence of (exon 1; 496 > C-T) non-sense mutation leading to a truncated FANCF protein attributed to a stop codon at the amino acid position 166. CONCLUSION: The study reported the presence of a homozygous C-T exon 1 mutation in FANCF gene in the female pediatric patient from Odisha, India associated with FA. Furthermore, both parents were found to be carriers of FANCF gene mutation, as this allele was found to be in heterozygous state upon genome sequencing. The pathogenicity of the agent was robustly supported by the clinical phenotype and biochemical observations, wherein the patient eventually developed acute myeloid leukemia. The findings of the study infer the importance of early detection of FA and the associated mutations, which might lead to the development of acute myeloid leukemia.

Using cell apoptosis, micronuclei and immune alternations as biomarkers of phenanthrene exposure in yellowfin seabream (Acanthopagrus latus).

In the present study, the apoptosis and tissue changes in the spleen, as well as humoral immune-related parameters, micronuclei (MN) induction in blood cells and Ethoxyresorufin-O-deethylase (EROD) activity were investigated in yellowfin seabream (Acanthopagrus latus) after short-term exposure to phenanthrene (Phe). The fish were intraperitoneally injected with different concentrations (2, 20 and 40 mg kg-1) of Phe and tissue and blood samples were collected 1, 4, 7 and 14 days after injection. The concentrations of Phe in the fish liver increased 4 days after the experiment. EROD activity showed a pattern consistent with Phe concentration in the liver. Apoptotic index in the spleen increased dose dependently in Phe-exposed fish. Exposure to Phe caused significant decrease in the plasma level of immunoglobulin M, phagocytic and respiratory burst activity after 4 days of exposure. The frequency of MN in the erythrocytes of the treated fish was significantly higher than control. The main pathological alterations in the spleen included the increase in melanomacrophage centers (MMCs), destroyed red blood cell and hemorrhage. The degree of tissue changes in the spleen of the exposed fish ranged from slight to moderate damage. The size and number of MMCs in the spleen were significantly higher in Phe-treated fish compared to the control. Our results showed that Phe could suppress immune responses in fish, induce cell apoptosis, histological changes in the spleen and MN formation. This may suggest those parameters consider as useful biomarkers for monitoring of the health status of fish during exposure to Phe.

[Primary immunodeficiencies and haemato-oncology]. / Primer immundefektus esetén eloforduló onkohematológiai kórképek.

Primary immunodeficiencies (PID) are rare, congenital disorders, often associated with genetic defects in the immune system. According to our current knowlegde, about 350 genes are involved in distinct immunodeficiency disorders. In PIDs at least one, and often more, immune component is impaired, missing, or has an inappropriate function. The prevalence of PID has been increasing. Due to advances in the treatment of PID, especially immunoglobulin replacement therapy and stem cell transplantation, the life expectancy of patients is longer. As patients with PID live longer, malignancies are diagnosed more commonly. Patients with PID are at an increased risk of malignancy compared with the normal population. Malignancy is the second most common cause of death in these patients after infections. The aim of this article is to review the malignancies and their clinical relevance in patients with PID. Orv Hetil. 2018; 159(49); 2073-2078.

Genome-wide analysis of somatic copy number alterations and chromosomal breakages in osteosarcoma.

Osteosarcoma (OS) is the most common primary malignant bone tumor in children and adolescents. It is characterized by highly complex karyotypes with structural and numerical chromosomal alterations. The observed OS-specific characteristics in localization and frequencies of chromosomal breakages strongly implicate a specific set of responsible driver genes or a specific mechanism of fragility induction. In this study, a comprehensive assessment of somatic copy number alterations (SCNAs) was performed in 160 OS samples using whole-genome CytoScan High Density arrays (Affymetrix, Santa Clara, CA). Genes or regions frequently targeted by SCNAs were identified. Breakage analysis revealed OS specific unstable regions in which well-known OS tumor suppressor genes, including TP53, RB1, WWOX, DLG2 and LSAMP are located. Certain genomic features, such as transposable elements and non-B DNA-forming motifs were found to be significantly enriched in the vicinity of chromosomal breakage sites. A complex breakage pattern-chromothripsis-has been suggested as a widespread phenomenon in OS. It was further demonstrated that hyperploidy and in particular chromothripsis were strongly correlated with OS patient clinical outcome. The revealed OS-specific fragility pattern provides novel clues for understanding the biology of OS.

Sensitivity to chromosomal breakage as risk factor in young adults with oral squamous cell carcinoma.

OBJECTIVE: Oral squamous cell carcinoma (OSCC) may develop in young adults. In contrast to older patients, the well-known etiological factors, exposure to tobacco and alcohol, play a minor role in the carcinogenesis in this patient group. It has been suggested that an intrinsic susceptibility to environmental genotoxic exposures plays a role in the development of OSCC in these patients. The hypothesis was tested whether young OSCC patients have an increased sensitivity to induced chromosomal damage. SUBJECTS AND METHODS: Fourteen OSCC patients with an average age of 32 years (range 20-42) were selected. Peripheral blood lymphocytes and skin fibroblasts of patients and 14 healthy controls were subjected to the chromosome breakage test with Mitomycin C. This test is routinely used to identify Fanconi anemia patients, who are well-known for their inherited high sensitivity to this type of DNA damage, but also for the high risk to develop OSCC. Human papilloma virus status of the carcinomas was also determined. RESULTS: None of the 14 young patients with OSCC had an increased response in the MMC-chromosomal breakage test. All tumors tested negative for human papilloma virus. CONCLUSION: No evidence was obtained for the existence of a constitutional hypersensitivity to DNA chromosomal damage as a potential risk factor for OSCC in young adults.

Regulation of Fanconi anemia protein FANCD2 monoubiquitination by miR-302.

Fanconi anemia (FA) is a recessively inherited multigene disease characterized by congenital defects, progressive bone marrow failure, and heightened cancer susceptibility. Monoubiquitination of the FA pathway member FANCD2 contributes to the repair of replication stalling DNA lesions. However, cellular regulation of FANCD2 monoubiquitination remains poorly understood. In the present study, we identified the miR-302 cluster as a potential regulator of FANCD2 by bioinformatics analysis. MicroRNAs (miRNAs) are the major posttranscriptional regulators of a wide variety of biological processes, and have been implicated in a number of diseases. Expression of the exogenous miR-302 cluster (without miR-367) reduced FANCD2 monoubiquitination and nuclear foci formation. Furthermore, miR-302 cells showed extensive chromosomal breakage upon MMC treatment when compared to mock control cells. Taken together, our results suggest that overexpression of miR-302 plays a critical role in the regulation of FANCD2 monoubiquitination, resulting in characteristic defects in DNA repair within cells.

The effect of Anzer honey on X-ray induced genotoxicity in human lymphocytes: An in vitro study.

Anzer honey is well known in Turkey and used for its medicinal properties, especially for pharyngitis, tonsillitis, ulcers and cancer. In this study, we investigated whether Anzer honey, which is shown to have antioxidant, anti-tumoral, and anti-inflammatory properties, has a protective effect against X-ray induced genotoxic damage by cytogenetic methods. Peripheral blood lymphocytes isolated from 20 healthy volunteers were divided into two groups and cultivated by conventional methods. Study group lymphocytes were treated with 10% diluted honey while those in the control group were not. Both groups were exposed to a high dose (2 Gy) X-ray at the 48th hour of culture. Conventional cytogenetic staining and Giemsa banding methods were applied to evaluate chromosomal breakage and ring formation. Micronucleus frequencies were determined by the cytokinesis-block micronucleus (CBMN) assay. Paired sample t test was used to compare groups. Anzer honey, which was analyzed melissopalynologically, was used. Micronucleus frequency was significantly decreased in the study group (CI = 348.75 ± 31, median 326, min. 98, max. 704) compared to the control group (CI = 489.10 ± 27, median 500, min. 216, max. 645) (p = .001). Chromosomal breakage was also significantly decreased in the study group (CI = 118.70 ± 16, median 109, min. 12, max. 316) compared to the control group (CI = 233.60 ± 25, median 225, min. 65, max. 492) (p < .0001). This is the first study indicating that genotoxic damage in the peripheral blood lymphocytes of healthy volunteers induced by X-radiation may be prevented or alleviated by adding Anzer honey in vitro. These results encourage further research about the protective effects of honey. RESEARCH HIGHLIGHTS: Anzer honey has a genoprotective effect against radiation-induced genotoxicity, probably by preventing oxidation damage.

Cytoprotective effect of honey against chromosomal breakage in fanconi anemia patients in vitro.

BACKGROUND: Natural honey is widely used all over the world as a complementary and alternative medicine in various disorders including Fanconi anemia (FA). FA is a rare genetic chromosomal instability syndrome caused by impairment of DNA repair and reactive oxygen species (ROS) imbalance. This disease is also related to bone marrow failure and cancer. The aim of this study was to evaluate the cytoprotective effect of honey on mitomycin C (MMC-) induced chromosomal damage in peripheral lymphocytes from FA patients. MATERIALS AND METHODS: Treatment of these complications with alkylation agents MMC may enhance chromosomal breakage. We have evaluated the effect of honey on MMC- induced chromosomal breakage in FA blood cells using chromosomal breakage assay. The basal chromosomal breakage count was higher among FA patients than healthy subjects. RESULTS: The addition of MMC alone gave a significantly higher of chromosomal breakage in FA patients than control group (P < 0.0001). Pre- treatment with honey significantly inhibited breakage induced by MMC in FA patients by its antioxidant effect. CONCLUSION: Honey can prevent MMC- induced chromosomal breakage by its antioxidant effect.

Evaluation of concentration and storage effects of mitomycin C in the diagnosis of Fanconi anemia among idiopatic aplastic anemia patients.

BACKGROUND: Fanconi anemia (FA) is a rare autosomal recessive genetic disorder that shows an increased sensitivity to the intercalating agents such as mytomycin C (MMC), measured as chromosomal aberrations. This study was conducted to differentiate between FA and "idiopathic" aplastic anemia on the basis of induced chromosomal breakage study with MMC. MATERIALS AND METHODS: MMC stress tests in different final concentrations of 20 and 50 ng/ml of MMC were conducted on peripheral blood lymphocytes from 32 patients with aplastic anemia and 13 healthy controls. Fifty nanograms per milliliter of MMC from old, fresh and frozen stocks was used to check the sensitivity of diagnosis on FA-diagnosed patients. Statistical analysis was used for the assessment of aberrations, including chromatid and chromosome breaks and exchanges. RESULTS: Eight patients (25%) with a very high percentage of chromosomal breakage were diagnosed as FA on the basis of the chromosomal breakage study. Six of these patients exhibited congenital anomalies at presentation, while another two lacked such anomalies or had minor physical problems. Freshly made MMC has shown more sensitivity to detect FA patients compared with frozen or 1-week-old MMC stock. CONCLUSIONS: The study indicates that freshly made MMC stress test provides an unequivocal means of differentiation between FA and "idiopathic" aplastic anemia. Further, the study, the first of its kind from Iran, stresses on the need for conducting this test in all aplastic anemia cases, even those without congenital anomalies, for accurate and timely diagnosis of FA to implement appropriate therapy.

An experience with 124 cases of fanconi anemia: clinical spectrum, hematological parameters and chromosomal breakage analysis.

BACKGROUND: Fanconi anemia is an inherited bone marrow failure syndrome characterized by somatic abnormalities and an increased predisposition to malignancies. OBJECTIVE: To determine the clinical spectrum and evaluate the hematological parameters as well as highlight diagnosis by chromosomal breakage analysis of Fanconi anemia patients. MATERIAL AND METHODS: A total of 124 patients were diagnosed as having Fanconi anemia from August 2014 to May 2020 at Armed Forces Institute of Pathology, Rawalpindi, Pakistan. Clinical details, somatic abnormalities, radiological findings, lab parameters and result of chromosomal breakage analysis were noted and analyzed. RESULTS: One hundred and twenty four (14.29%) were diagnosed as having Fanconi anemia (FA) on chromosomal breakage test. Median age was 09 years 06 months. Male to female ratio was 1.9:1. Six of these patients exhibited mosaicism and were classified as FA mosaic. Somatic abnormalities were detected in 74 (59.7%) patients; the most common being skeletal abnormalities and short stature. CONCLUSION: Chromosomal breakage analysis is a cost-effective method for diagnosis of Fanconi anemia. Early diagnosis is pertinent for proper treatment and long term prognosis.

Telomerase Dysfunction in the Tumorigenesis of Genetic Disorders.

Telomeres are nucleoprotein complexes present at the ends of chromosome to maintain its integrity. Telomere length is maintained by an enzyme called "telomerase". Thus, telomerase activity and telomere length are crucial for the initiation of cancer and tumors survival. Also, oxidative stress will cause DNA, protein, and/or lipid damage, which end with changes in chromosome instability, genetic mutation, and may affect cell growth and lead to cancer. Some genetic diseases such as chromosomal instability syndrome, overgrowth syndrome, and neurofibromatosis make the patients at higher risk for developing different types of cancers. Therefore, we aimed to estimate telomerase activity and oxidative stress in these patients. Blood samples were collected from 31 patients (10 with neurofibromatosis, 11 with chromosomal breakage, and 10 with overgrowth syndrome) and 12 healthy subjects. Blood hTERT mRNA was detected by real time quantitative reverse-transcription PCR (RT-qPCR). All patients were subjected to chromosomal examination and chromosome breakage study using diepoxybutane method. Moreover, serum glutathione (GSH), glutathione-s-transferase (GST) activity and nitric oxide (NO) levels were measured among the control and patients groups. Receiver operating characteristic (ROC) curve was drawn to evaluate the efficiency of telomerase activity as a biomarker for the prediction of cancer occurrence. The relative telomerase activity in neurofibromatosis patients was significantly higher than controls (P = 0.014), while it was non-significantly higher in chromosomal breakage and overgrowth patients (P = 0.424 and 0.129, respectively). NO levels in neurofibromatosis, chromosomal breakage and overgrowth patients significantly increased with respect to control (P = 0.021, 0.002, 0.050, respectively). GSH levels were non-significantly lower in neurofibromatosis and chromosomal breakage patients in comparison with the control group, while it remained unchanged in overgrowth patients. The GST activity was significantly upregulated in neurofibromatosis, chromosomal breakage and overgrowth groups in comparison with the control group (P = 0.001, 0.009, and 0.025, respectively). Chromosomal examination revealed normal karyotype in all four chromosomal breakage patients with positive diepoxybutane test. The results of the present study revealed altered telomerase activity and oxidative stress in the studied genetic disorders. More research studies with a larger number of patients are required to confirm whether this alteration is related to cancer occurrence risk or not.

A Novel Phenotype Combining Primary Ovarian Insufficiency Growth Retardation and Pilomatricomas With MCM8 Mutation.

CONTEXT: Primary Ovarian insufficiency (POI) affects 1% of women aged <40 years and leads most often to definitive infertility with adverse health outcomes. Very recently, genes involved in deoxyribonucleic acid (DNA) repair have been shown to cause POI. OBJECTIVE: To identify the cause of a familial POI in a consanguineous Turkish family. DESIGN: Exome sequencing was performed in the proposita and her mother. Chromosomal breaks were studied in lymphoblastoid cell lines treated with mitomycin (MMC). SETTING AND PATIENTS: The proposita presented intrauterine and postnatal growth retardation, multiple pilomatricomas in childhood, and primary amenorrhea. She was treated with growth hormone (GH) from age 14 to 18 years. RESULTS: We identified a novel nonsense variant in exon 9 of the minichromosome maintenance complex component 8 gene (MCM8) NM_001281522.1: c0.925C > T/p.R309* yielding either a truncated protein or nonsense-mediated messenger ribonucleic acid decay.The variant was homozygous in the daughter and heterozygous in the mother. MMC induced DNA breaks and aberrant metaphases in the patient's lymphoblastoid cells. The mother's cells had intermediate but significantly higher chromosomal breaks compared with a control. CONCLUSION: We describe a novel phenotype of syndromic POI related to a novel truncating MCM8 variant. We show for the first time that spontaneous tumors (pilomatricomas) are associated with an MCM8 genetic defect, making the screening of this gene necessary before starting GH therapy in patients with POI with short stature, especially in a familial or consanguineous context. Appropriate familial monitoring in the long term is necessary, and fertility preservation should be considered in heterozygous siblings to avoid rapid follicular atresia.

Significant Role of Segmental Duplications and SIDD Sites in Chromosomal Translocations of Hematological Malignancies: A Multi-parametric Bioinformatic Analysis.

Recurrent non-random chromosomal translocations are hallmark characteristics of leukemogenesis, and however, molecular mechanisms underlying these rearrangements are less explored. The fundamental question is, why and how chromosomes break and reunite so precisely in the genome. Meticulous understanding of mechanism leading to chromosomal rearrangement can be achieved by characterizing breakpoints. To address this hypothesis, a novel multi-parametric computational approach for characterization of major leukemic translocations within and around breakpoint region was performed. To best of our knowledge, this bioinformatic analysis is unique in finding the presence of segmental duplications (SDs) flanking breakpoints of all major leukemic translocation. Breakpoint islands (BpIs) were analyzed for stress-induced duplex destabilization (SIDD) sites along with other complex genomic architecture and physicochemical properties. Our study distinctly emphasizes on the probable correlative role of SDs, SIDD sites and various genomic features in the occurrence of breakpoints. Further, it also highlights potential features which may be playing a crucial role in causing double-strand breaks, leading to translocation.

Characterization of two novel FANCG mutations in Indian Fanconi anemia patients.

FA is a rare recessive genetic disorder with autosomal or X-linked mode of inheritance and is associated with 19 different FA complementation groups. We have studied three patients clinically diagnosed as FA. All three patients showed a high frequency chromosomal breakage in MMC induced blood cultures and FANCD2 non-monoubiquitination by western blotting. The molecular analysis using direct sequencing revealed two novel mutations in FANCG; 2 novel mutations c.1143+5G>C and c.883dupG, and a reported mutation c.1471_1473delAAAinsG. We have for the first time modeled FANCG protein with fold based template search using pGenthreader which revealed sequence fold identical to super helical TPR domain of O linked GLCNAC transferase and have studied the impact of mutations on the function and structure of FANCG. All three mutations are potential pathogenic molecular changes which can affect FANCG interactions required for FA pathway, homologous recombination repairs and unhooking step of the ICL repair process.

Phenotypes and genotypes of the chromosomal instability syndromes.

As defined initially, chromosome instability syndromes (CIS) are a group of inherited conditions transmitted in autosomal recessive pattern characterised with both mental and physical development delay generally. They are also with other medical complications in individuals with CIS commonly including different degree of dysmorphics, organs/systems dys-function and high risk of cancer predisposition. Chromosomal breakage from CIS can be seen either in spontaneous breakage around 10-15% observed in Fanconi anemia or induced by clastogenic agents such as mitomycin (MMC), diepoxybutane (DEB). The spontaneous chromosome breakage is less common but it correlates with patient clinical severity. Relative high rates of some types of CIS can occur in certain ethnic groups. Individuals with CIS are commonly in childhood and these disorders are often lethal. Diagnosis is complicated usually because the symptoms presented from individuals with CIS may be varied and complex. Advances in molecular level have identified genes responsible for such group diseases/disorders demonstrated that CIS are characterized by the genome instability, defect in DNA repair mechanisms. Latest advances in high-throughput technologies have been increasing sequencing capabilities to facilitate more accurate data for such syndrome researches. CIS are the typical rare diseases and becoming more challenges in pediatrics clinic. In the last two decades, there were no many articles to review and analysis CIS together to comparing their phenotypes and genotypes. In this article, the similarity and differences of the phenotypes and genotypes of CIS were reviewed to understanding the whole profiles of CIS to assist laboratory genetic diagnostic services in CIS and for the confirmation from the clinical referrals.

Fanconi Anemia with MDS RAEB-2 Rapidly Progressing to AML in a 5-Year-Old Boy.

Fanconi's Anemia is primarily an autosomal recessive genetic disorder characterized by congenital abnormalities, defective haematopoiesis leading to bone marrow failure and increased risk of development of Myelodysplastic syndrome, acute myeloid leukemia and solid tumours. Chromosomal instability can be demonstrated by breakage caused by alkylating agents and forms the basis of diagnosis. Our patient presented with structural deformities associated with features of bone marrow failure in form of pancytopenia. Bone marrow analysis and flow cytometry done on aspirate was suggestive of MDS. He subsequently progressed to frank acute myeloid leukemia and succumbed to the illness. The case is being reported for its rarity especially, Fanconi's Anemia associated with monosomal karyotype (one monosomy plus one more structural abnormality).

Clinicohematological correlation and chromosomal breakage analysis in suspected Fanconi anemia patients of India.

INTRODUCTION: The management of patients with aplastic anemia, to an extent, depends on the etiology i.e., inherited or acquired. The classical Chromosomal breakage study involves detection of chromosomal breakage or aberrations (breaks, gaps, rearrangements, radials, exchanges, endoreduplications) in peripheral blood cells after culture with a T-cell mitogen and a DNA clastogenic (cross-linking) agent, such as diepoxybutane (DEB) or mitomycin C (MMC). The testing needs to be performed in laboratory with appropriate expertise in Fanconi Anemia testing. The present study was undertaken to find out the frequency of inherited aplastic anemia in North India. MATERIALS AND METHODS: This study was carried out at the Department of Molecular Biology and Transplant Immunology, Indraprastha Apollo hospital, New Delhi. The study includes retrospective analysis of 528 aplastic anemia patients whose samples were tested at our department for Chromosomal breakage study during the period 2007 to 2011. Respective age and sex matched healthy controls were also processed for chromosomal breakage study. Patient's habitat, clinical symptoms, differential blood count and history of drug exposure were documented for all patients referred to us, whereever available. Relative risk was estimated by odds ratio (OR) with 95% confidence interval (CI) in matched cases and controls. CONCLUSION: A significant increase in chromosomal breakages was seen in 13.1% patients. The survival data documented for 100 patients suggested 60% mortality.

Spontaneous chromatid break as clonal evolution in myelodysplastic syndrome patients / Quebra espontânea de cromátides como evolução clonal em pacientes com síndrome mielodisplásica

ABSTRACT Myelodysplastic syndrome (MDS) is a clonal hematopoietic stem cell disorder characterized by peripheral cytopenias due to ineffective erythropoiesis and an increased risk for evolving into acute myeloid leukemia (AML). Chromosomal abnormalities represent the most important marker of risk stratification for AML transformation. Chromatid break (chtb) is a discontinuity of a single chromatid. We report the case of a patient with MDS whose cytogenetic analysis showed spontaneous chromatid breakage (chrb): 46,XY,add(13)(q34),chtb(15)(q24) [3]/47,XY,chtb(2)(q22),del(5)(q35),del(7)(q32),+8,del(11q)(q23),del(q22)[cp17]. He was considered a high-risk patient due to the complex karyotype and the presence of chtb. We suggest that this chromosomal abnormality may be considered as a marker of genomic instability in MDS.

RESUMO A síndrome mielodisplásica (SMD) é uma desordem clonal das células-tronco hematopoiéticas caracterizada por citopenias periféricas devido à hematopoiese ineficaz e pelo aumento do risco de evolução para a leucemia mieloide aguda (LMA). As alterações cromossômicas representam o marcador mais importante da estratificação de risco para a transformação de LMA. Quebra das cromátides (chtb) é uma descontinuidade de uma única cromátide. Relatamos o caso de um paciente com SMD, cuja análise citogenética mostrou chtb espontâneo: 46,XY,add(13)(q34),chtb(15)(q24)[3]/47,XY,chtb(2)(q22),del(5) (q35),del(7)(q32),+8,del(11q)(q23),del(q22)[cp17]. O paciente foi considerado de alto risco devido ao cariótipo complexo e à presença de chtb. Sugerimos que essa anormalidade cromossômica possa ser considerada como marcador de instabilidade.

Análisis de roturas cromosómicas en un paciente con sospecha clínica de anemia de Fanconi / Chromosomal breakage analysis in a patient with presumptive diagnosis of Fanconi anemia

La anemia de Fanconi (AF) es un síndrome de inestabilidad cromosómica caracterizado por diversos rasgos dismórficos, pancitopenia progresiva y predisposición a neoplasias hematológicas. El ensayo de sensibilidad a la mitomicina C (MMC) proporciona un marcador celular único para el diagnóstico de la enfermedad. Con el objetivo de introducir este ensayo de roturas cromosómicas, se aplicó la técnica en dos muestras procedentes de un paciente con sospecha clínica de AF y un sujeto control. Las muestras de sangre periférica fueron cultivadas según los protocolos establecidos para los estudios citogenéticos. Se prepararon cuatro frascos de cultivo por cada muestra. A uno de ellos se le añadió solo cloruro de sodio (cultivo control) y a los restantes se les añadieron concentraciones crecientes de MMC (50, 150 y 300 nM). Fueron analizadas cincuenta metafases por cada frasco. La exposición de los linfocitos del paciente a todas las concentraciones de MMC provocó diferencias significativas en el número de células con roturas cromosómicas respecto a la misma exposición en el control (p <0.005). Se comprobó el éxito del ensayo teniendo en cuenta que a 300 nM en el control sano solo aparece el 32 por ciento de células con roturas. Es interesante resaltar que en la muestra del paciente a la concentración más elevada, se apreció la presencia de 2 líneas celulares, una con pocas o ninguna rotura (38 por ciento) similar a las que aparecen en las células no-AF; y otra con múltiples roturas (62 por ciento) típicas de las células AF. Esto indicó la presencia de mosaicismo somático en los linfocitos T del paciente. De acuerdo con los resultados obtenidos se confirmó la sospecha clínica de que se trata de un paciente AF, por la hipersensibilidad a la acción de la MMC que presenta mosaicismo somático en linfocitos T(AU)

Fanconi anemia (FA) is a chromosomal instability syndrome characterized by various dysmorphic features, progressive pancytopenia and predisposition to hematological malignancies. The assay sensitivity to mitomycin C (MMC) provides a unique cell marker for the diagnosis of the disease. In order to introduce this chromosomal breakage test the technique was applied in two samples from a patient with clinical suspicion of AF and a control subject. Peripheral blood samples were cultured by protocols established for cytogenetic studies. Four flasks were prepared for each sample culture. Only sodium chloride was added to one of the flasks (control) and to the remaining flasks increasing concentrations of MMC (50, 150 and 300 nM) were added. Fifty metaphases were analyzed for each bottle. Exposure of lymphocytes from the patient at all concentrations of MMC caused significant differences in the number of cells with chromosome breaks with respect to the same exposure in the control (p <0.005). Assay success was proved considering that in 300 nM in healthy control only 32 percent shows cell breakage. It is interesting to remark that in the patient sample with highest concentration, the presence of two cell lines were observed, one with little or no breakage (38 percent) similar to those found in no-F cells and other with multiple breaks (62 percent), typical of AF cells. These results indicated the presence of somatic mosaicism in patient´s T lymphocytes. The results obtained confirmed the clinical suspicion that this is an AF patient, due to the hypersensitivity to the action of MMC and the presence of somatic mosaicism in T lymphocytes(AU)