Comprehensive study of chromosomal CNVs and genomic variations predicting overall survival in Myelodysplastic syndromes.

INTRODUCTION: Myelodysplastic syndrome (MDS) is a heterogeneous disease characterized by cytopenia, marrow dysplasia and has a propensity to develop into acute myeloid leukemia (AML). The disease progression is majorly affected by genetic defects. However, about 40% - 50% of patients with MDS present with a normal karyotype and develop different courses of disease. Hence there remains a room to advance the biological understanding and to find molecular prognostic markers for cytogenetically normal (CN) MDS. METHODS: We performed a high-resolution CGH + SNP array along with NGS of 77 primary diagnosed MDS patients and also they were clinically followed up. RESULTS: Our study revealed 82 clinically significant genomic lesions (losses/gains) in 49% of MDS patients. CGH + SNP array reduced the proportion of normal karyotype by 30%. SNP array in combination with NGS confirmed the biallelic loss of function of the TP53 gene (2/6), which is a clinically relevant biomarker and new genetic-based MDS entity i.e. MDS-biTP53 as per the new WHO classification 2022. Genomic region 2p22.3 presented with frequent lesions and also with a more hazard ratio (2.7, 95% CI 0.37 - 21) when analyzed by Kaplan Meier survival analysis. CONCLUSION: CGH + SNP array changed the cytogenetic and IPSS-R risk group in 18% and 13% of patients respectively with an improved prediction of prognosis. This study emphasizes the cytogenetic heterogeneity of MDS and highlights that abnormality with chromosome 2 may have a diagnostic and prognostic impact.

Comprehensive molecular analysis identifies eight novel variants in XY females with disorders of sex development.

Disorders of sex development (DSD) are a group of clinical conditions with variable presentation and genetic background. Females with or without development of secondary sexual characters and presenting with primary amenorrhea (PA) and a 46,XY karyotype are one of the classified groups in DSD. In this study, we aimed to determine the genetic mutations in 25 females with PA and a 46,XY karyotype to show correlations with their phenotypes. Routine Sanger sequencing with candidate genes like SRY, AR, SRD5A2, and SF1, which are mainly responsible for 46,XY DSD in adolescent females, was performed. In a cohort of 25 patients of PA with 46,XY DSD, where routine Sanger sequencing failed to detect the mutations, next-generation sequencing of a targeted gene panel with 81 genes was used for the molecular diagnosis. The targeted sequencing identified a total of 21 mutations including 8 novel variants in 20 out of 25 patients with DSD. The most frequently identified mutations in our series were in AR (36%), followed by SRD5A2 (20%), SF1 (12%), DHX37 (4%), HSD17B3 (4%), and DMRT2 (4%). We could not find any mutation in the DSD-related genes in five (20%) patients due to complex molecular mechanisms in 46,XY DSD, highlighting the possibility of new DSD genes which are yet to be discovered in these disorders. In conclusion, genetic testing, including cytogenetics and molecular genetics, is important for the diagnosis and management of 46,XY DSD cases.

Genomic and computational analysis of four novel variants of MPL gene in Congenital Amegakaryocytic Thrombocytopenia.

Congenital amegakaryocytic thrombocytopenia (CAMT) is a rare, genetic, autosomal recessive disorder characterized by severe thrombocytopenia, due to inefficient bone marrow megakaryopoiesis eventually leading to aplasia. Majority of the cases are due to homozygous or compound heterozygous mutations in MPL gene encoding for thrombopoietin (THPO) receptor protein. CAMT can be diagnosed at early phase of life, with major complication of transfusion dependency and hematopoietic transplantation as only curative treatment. We have investigated the sequence variations in MPL gene of 7 bone marrow failure (BMF) subjects, who presented with clinically diverse phenotypes, through next generation sequencing (NGS). Plasma THPO levels were estimated using ELISA. Insilico sequence and structure-based analyses were performed to understand the structural and functional implications of mutations, identified through NGS. We studied 7 CAMT subjects suspected of BMF, who presented with severe thrombocytopenia followed by pancytopenia, bleeding manifestation and physical anomalies. The plasma THPO levels were significantly elevated (p<0.05) in all the cases. Molecular analysis by NGS identified 9 genomic mutations in MPL gene. These included 7 non-synonymous substitution, 1 nonsense substitution and 1 in-del mutations, of which 4 are novel mutations. Insilico analysis predicted damaging effects on THPO-R and its reduced affinity for THPO for all the identified mutations. CAMT is a rare disorder with diverse clinical phenotypes and diagnosis is challenging. The elevated plasma THPO levels should be considered for the primary diagnosis and prognosis of the disease. However, molecular analysis of MPL gene is important for the diagnosis and management of the disease through genetic counselling. Though the cytokines, THPO-R agonist are used for the treatment of CAMT, HSCT is the only curative therapy.

Over expression of mTOR gene predicts overall survival in myelodysplastic syndromes.

BACKGROUND: Myelodysplastic syndromes (MDS) is defined as heterogenous disease, it contains heterogenous leukemic stem cells with various degree of cell differentiation. The perturbation of genes involved in myeloid progenitor cell growth, differentiation and proliferation lead to morphologic dysplasia, maturation arrest, ineffective hematopoiesis hence the cytopenias and propensity to develop into acute myeloid leukemia (AML). Heterogeneous subsets of MDS patients have been defined by their clinical and biologic abnormalities. These different features lead to the development of different prognostic system; however, these approaches are limited in predicting clinical course, and management of patients remains challenging given the uncertainty of the time course of disease progression. It is of importance to identify transcriptomic marker causing maturational and differentiation arrest which could help in understanding the pathogenesis of disease. METHODS AND RESULTS: We have studied differential gene expression profiles (GEPs) in CD34 + marrow cells from myelodysplastic syndrome (MDS) patients (n = 14) and control CD34 + cells using Affymetrix Human Clariom S microarray with 20,000 well annotated genes. We found 4165 genes significantly (p < 0.05) differentially expressed in MDS. Using stringent bioinformatics analyses, we were able to identify few genes (MAPK8, JUNB, mTOR) which were differentially upregulated i.e. 5.39, 73.61 and 2.7 fold change observed in MDS than control and also validated (n = 60) these genes by RT - qPCR. Kaplan - Meier survival analysis indicated that MAPK8 and JUNB could be poor prognostic marker as patients with increased expression showed poor survival, whereas surprisingly mTOR increased expression proved to be good prognostic marker. The correlation analysis showed that the level of gene (MAPK8, JUNB, mTOR) expression was significantly (p ≤ 0.05) associated with frequency of genetic lesions. Interestingly the increased expression of MAPK8 was significantly accompanied with ASXL1 gene mutation. CONCLUSION: Our study showed an elevation of TNF and AMPK signalling pathways in MDS. TNF signalling might be mediating the proliferative advantage to myeloid clonal cells (mutation carrying cells) over normal cells, whereas, AMPK signalling could be acting as protector against it (favouring normal cells). Hence it would be interesting to explore the functions and pathways associated with mTOR, AMPK, MAPK8 and JUNB in myelopoiesis related diseases like MDS.

A comprehensive molecular study identified 12 complementation groups with 56 novel FANC gene variants in Indian Fanconi anemia subjects.

Fanconi anemia (FA) is a rare autosomal or X-linked genetic disorder characterized by chromosomal breakages, congenital abnormalities, bone marrow failure (BMF), and cancer. There has been a discovery of 22 FANC genes known to be involved in the FA pathway. This wide number of pathway components makes molecular diagnosis challenging for FA. We present here the most comprehensive molecular diagnosis of FA subjects from India. We observed a high frequency (4.42 ± 1.5 breaks/metaphase) of chromosomal breakages in 181 FA subjects. The major clinical abnormalities observed were skin pigmentation (70.2%), short stature (46.4%), and skeletal abnormalities (43.1%), along with a few minor clinical abnormalities. The combination of Sanger sequencing and Next Generation Sequencing could molecularly characterize 164 (90.6%) FA patients and identified 12 different complementation groups [FANCA (56.10%), FANCG (16.46%), FANCL (12.80%), FANCD2 (4.88%), FANCJ (2.44%), FANCE (1.22%), FANCF (1.22%), FANCI (1.22%), FANCN (1.22%), FANCC (1.22%), FANCD1 (0.61%) and FANCB (0.61%)]. A total of 56 novel variants were identified in our cohort, including a hotspot variant: a deletion of exon 27 in the FANCA gene and a nonsense variant at c.787 C>T in the FANCG gene. Our comprehensive molecular findings can aid in the stratification of molecular investigation in the diagnosis and management of FA patients.

Assessment of Long-Term in vitro Multiplied Human Wharton's Jelly-Derived Mesenchymal Stem Cells prior to Their Use in Clinical Administration.

The quantity of mesenchymal stem/stromal cells (MSCs) required for a particular therapy demands their subsequent expansion through ex vivo culture. During in vitro multiplication, they undergo replicative senescence which may alter their genetic stability. Therefore, this study was aimed to analyze cellular, molecular, and chromosomal alterations in Wharton's jelly-derived MSCs (WJ-MSCs) during their in vitro sequential passages, where WJ-MSCs were sequentially passaged up to P14 and cells were evaluated at an interval of P2, P6, P10, and P14. They were examined for their morphology, tumorigenicity, surface markers, stemness markers, DNA damage, chromosomal aberration, and telomere length. We have processed five full-term delivered human umbilical cord samples to obtain WJ-MSCs. Morphological appearance observed at initial stages was small fine spindle-shaped WJ-MSCs which were transformed to flat, long, and broader cells in later passages. The cell proliferation rate was gradually decreased after the 10th passage. WJ-MSCs have expressed stemness markers OCT-4 and NANOG, while they showed high expression of positive surface markers CD90 and CD105 and lower expression of CD34 and CD45. They were non-tumorigenic with slow cellular aging during subsequent passages. There was no chromosomal abnormality up to the 14th passage, while increase in comet score and decrease in telomere length were observed in later passages. Hence, our study suggests that early and middle passaged (less than P10) WJ-MSCs are good candidates for clinical administration for treatment.

Severe telomere shortening in Fanconi anemia complementation group L.

Fanconi Anemia (FA) is a rare genetic disease with the incidence of 1 in 360,000 and is characterised by bone marrow failure, physical abnormalities, pancytopenia, and high frequency of chromosomal breakage and increased risk of evolving into malignancy. Telomere plays an important role in genomic stability, ageing process and cancers. Telomere shortening has been reported in FA. We studied telomere length in FA subjects and compared with complementation groups. Chromosomal breakage analysis from PHA stimulated, MMC induced peripheral blood culture was carried out in 37 clinically diagnosed FA. Molecular study of FANCA, G, and L was done through Sanger sequencing and next generation sequencing. Telomere length was estimated using real time quantitative polymerase chain reaction (qPCR) method. Student t-test was applied to test the significance. A high frequency of chromosomal breakage was observed in all the patients compared to healthy controls. We found significantly shorter telomere length in all the three complementation groups compare to age matched healthy controls. Among all complementation groups, FANCL showed severe telomere shortening (P value 0.0001). A negative correlation was observed between telomere length and chromosomal breakage frequency (R = -0.3116). Telomere shortening is not uncommon in FA subjects. However the telomere length shortening is different in complementation groups as FANCL showed severe telomere shortening in FA subjects. Though BM transplantation is essential for the management of the FA subjects, the telomere length can be considered as biological marker to understand the prognosis of the disease as FA subjects primarily treated with androgens.

Nitric oxide synthase-2 (NOS2) gene polymorphism c.1832C>T (Ser608Leu) associated with nitrosative stress in Fanconi anaemia.

Fanconi anemia (FA) occurs due to genomic instability with predisposition to bone marrow failure, phenotypic abnormalities and cancers. Though mutations in 22 genes leading to DNA repair defect have been identified, the cellular factor such as oxidative stress has also shown to be associated with FA. Nitrosative Stress (NS) is biochemically correlated to many oxidative stress related disorders and the NS as a pathological hallmark in FA has been so far overlooked. We carried out the study first time in Indian patients with FA with an objective to understand the role of NS in the pathogenesis of FA. The study was carried out in 70 FA subjects. The FA subjects were diagnosed by chromosomal breakage analysis. Molecular study was carried out by Next Generation Sequencing and Sanger sequencing. The 3-nitrotyrosine [3-NT] levels were estimated through enzyme-linked immuno-sorbent assay (ELISA) and the nitric oxide synthase genes- NOS1 (c.-420-34221G>A (rs1879417), c.-420-10205C>T (rs499776), c.4286+720G>C (rs81631)) and NOS2 (c.1823C>T (p. Ser608Leu) (rs2297518)) polymorphism were studied by direct sequencing. Chromosomal breakage analysis revealed a high frequency of chromosomal breaks (Mean chromosomal breakage-4.13 ± 1.5 breaks/metaphase) in 70 FA patients as compared to the control. Molecular studies revealed FANCA (58.34%), FANCG (18.34%) and FANCL (16.6%) complementation groups. The 3-nitrotyrosine [3-NT] levels showed to be significantly (p < 0.05) elevated in FA subjects when compared to the age match controls. Genotyping of the NOS2 gene c.1823C>T (p. Ser608Leu) (rs2297518), showed statistically significant (P < 0.05) association with FA. Elevated level of 3-NT is one of the cause of NS and NOS2 gene polymorphism associated with FA is an important target in the treatment regimen.

A founder variant in the South Asian population leads to a high prevalence of FANCL Fanconi anemia cases in India.

Fanconi anemia (FA) is a rare genetic disorder characterized by bone marrow failure, predisposition to cancer, and congenital abnormalities. FA is caused by pathogenic variants in any of 22 genes involved in the DNA repair pathway responsible for removing interstrand crosslinks. FANCL, an E3 ubiquitin ligase, is an integral component of the pathway, but patients affected by disease-causing FANCL variants are rare, with only nine cases reported worldwide. We report here a FANCL founder variant, anticipated to be synonymous, c.1092G>A;p.K364=, but demonstrated to induce aberrant splicing, c.1021_1092del;p.W341_K364del, that accounts for the onset of FA in 13 cases from South Asia, 12 from India and one from Pakistan. We comprehensively illustrate the pathogenic nature of the variant, provide evidence for a founder effect, and propose including this variant in genetic screening of suspected FA patients in India and Pakistan, as well as those with ancestry from these regions of South Asia.

Lack of association between functional polymorphism of DNA repair genes (XRCC1, XPD) and clinical response in Indian chronic myeloid leukemia patients.

The resistance for the tyrosine kinase inhibitors in chronic myeloid leukemia (CML) occurs mainly due to BCR/ABL1 dependent and independent mechanisms. The defective DNA repair due to functional polymorphisms in DNA repair genes, might act as an etiological factor for leukemia progression. The study was carried out to understand the role of DNA repair genes (XRCC1, XPD) polymorphisms in Imatinib mesylate (IM) resistant CML patients. The study was carried out in total 87 CML patients (43 nonresponders-cases and 44 responders) who were treated with Imatinib. The treatment and follow-up was done according to European LeukemiaNet guidelines. The genotyping of selected SNPs were studied using RFLP and confirmed with Sanger sequencing (20%). The statistical analysis was performed using online tools (Socscistatistics and GraphPad InStat software). In our study no significant association was inferred between genotypes of DNA repair genes (XRCC1; rs1799782, rs25487, and XPD; rs13181) and complete cytogenetic response as well as molecular response. However there might be a possibility of association between XRCC1 Arg399Gln genotype AA/GA and cytogenetic response though it is statistically insignificant (p > 0.05). Though none of the genotypes of the DNA repair genes showed association with IM response, near association between XRCC1Arg399Gln genotype and cytogenetic response observed in our study. Hence, large sample size should be studied to establish the association of SNPs of DNA repair genes and IM response. Our study is a novel and important to explain the role of DNA repair genes polymorphisms in IM resistance.

Cytogenetic abnormalities and genomic copy number variations in EPO (7q22) and SEC-61(7p11) genes in primary myelodysplastic syndromes.

Myelodysplastic syndromes (MDSs) are heterogeneous clonal haematopoeitic stem cell disorders characterized by ineffective haematopoeisis, cytopenias and risk of progression to AML. We studied 150 MDS patients for cytogenetic aberrations and 60 patients with normal karyotype and 40 patients harboring cytogenetic abnormalities for copy number variations (CNVs). Cytogenetic abnormalities were detected in 46% of patients with a majority of patients harboring abnormalities of chromosome 7 and del (20q) at frequencies of 16% and 12% respectively. We explored the potential of quantitative multiplex PCR assay of short fluorescent fragments (QMPSF) to identify CNVs and correlated the findings with cytogenetic data and disease prognosis. CNVs (n=31) were detected in 28.3% of karyotypically normal and 23% patients with abnormal karyotype. Genetic losses or deletions (n=26) were more frequent than duplications (n=5). EPO (7q22) and SEC-61(7p11) emerged as new candidate genes susceptible to genetic losses with 57.7% deletions identified in regions on chromosome 7. The CNVs correlated with International Prognostic Scoring System (IPSS) intermediate disease risk group. Our integrative cytogenetic and copy number variation study suggests that abnormalities of chromosome 7 are predominant in Indian population and that they may play a secondary role in disease progression and should be evaluated further for asserting their clinical significance and influence on disease prognosis.

Association of XPD (Lys751Gln) and XRCC1 (Arg280His) gene polymorphisms in myelodysplastic syndrome.

Myelodysplastic syndromes (MDSs) are heterogeneous hematopoietic disease characterized by ineffective haematopoiesis that frequently transforms into acute leukaemia. Alterations in many individual biologic pathways have been reported in MDS pathophysiology. Disease progression along the MDS, acute myeloid leukemia (AML) continuum is believed to be a consequence of stepwise accumulation of DNA mutations which infers a defect in DNA repair. The present study investigated the association between DNA repair genes (XRCC1, XRCC3, OGG1, XPD and RAD51) and the risk of developing MDS. The study was carried out in 92 primary MDS patients. The genotyping study was carried out by PCR-RFLP technique. We have studied seven single-nucleotide polymorphisms (SNPs) of five DNA repair genes (XRCC1 (Arg194Trp, Arg280His, Arg399Gln), XRCC3, XPD, RAD51 and OGG1). Significantly, a high frequency of DNA repair gene XRCC1 (Arg280His) (p=0.05) and XPD (Lys751Gln) (p=0.01) polymorphism was observed in MDS patients compared to controls. The distribution of polymorphisms in MDS subgroups showed a significant association of XRCC1 with RAEB I compared to other subgroup. Though a high frequency of XRCC1 gene polymorphism was observed in farmers and tobacco chewers, it was not statistically significant. Our study suggests that XRCC1 (Arg280His) and XPD polymorphisms are associated with risk of MDS and XRCC1 polymorphism strongly associated with advanced MDS subgroup. Hence, these polymorphisms can be used as a prognostic marker in MDS.

DNA interstrand cross-link repair: understanding role of Fanconi anemia pathway and therapeutic implications.

Interstrand cross-links (ICLs) are extremely toxic DNA lesions that prevent DNA double-helix separation due to the irreversible covalent linkage binding of some agents on DNA strands. Agents that induce these ICLs are thus widely used as chemotherapeutic drugs but may also lead to tumor growth. Fanconi anemia (FA) is a rare genetic disorder that leads to ICL sensitivity. This review provides update on current understanding of the role of FA proteins in repairing ICLs at various stages of cell cycle. We also discuss link between DNA cross-link genotoxicity caused by aldehydes in FA pathway. Besides this, we summarize various ICL agents that act as drugs to treat different types of tumors and highlight strategies for modulating ICL sensitivity for therapeutic interventions that may be helpful in controlling cancer and life-threatening disease, FA.

Frequency and pattern of chromosomal abnormalities in acute myeloid leukemia from Western India: A retrospective study.

Context: Chromosomal abnormalities play an important role in diagnosis and prognosis of hematological diseases. Aims: The aim of the present study was to study the pattern and frequency of chromosomal aberrations in acute myeloid leukemia (AML) subgroups from western India. Settings and Design: A retrospective study was conducted through evaluating laboratory proforma which were filled during 2005 to 2014 for diagnosis and treatment of AML subjects. Methods and Material: We have studied chromosomal aberrations in 282 subjects with AML from western India. AML patients were sub-grouped according to FAB classification. Cytogenetic study using conventional cytogenetics (GTG-banding) and Fluorescence in situ hybridization (FISH) was carried out using FISH probes (AML1/ETO, PML/RARA, CBFB). Statistical analysis: Student's t test for continuous variables and Pearson's Chi-squared test for categorical variables were used to identify the relationship between variables. Results: Cytomorphological study revealed AML- M3 as most frequent (32.3%) group followed by AML-M2 (25.2%) and AML-M4 (19.9%). Chromosomal abnormalities were identified in 145 (51.42%) of the total AML cases. A high frequency (38.6%) of chromosomal abnormalities was identified in AML-M3 subgroup as compared to AML-M2 (31%) and AML-M4 (20.6%). Conclusions: Cytogenetic study is important for the diagnosis and management of the AML patients. Our study identified chromosomal abnormalities in AML subgroups with varied frequencies. It is important in diagnosis and monitoring of the disease. As younger AML patients were more affected in our study, etiological factors such as environmental factors need to be studied. Combination of conventional cytogenetics and FISH has an advantage of identifying high frequency of chromosomal aberrations in AML patients.

Synergetic effect of Azacitidine and Sorafenib in treatment of a case of myeloid neoplasm with sole chromosomal abnormality t(8;22)(p11.2;q11.2)/BCR-FGFR1 rearrangement.

The sole t(8;22)(p11.2;q11.2)/BCR- FGFR1 chromosomal abnormality formerly known as aCML is an extremely rare disease entity with a history of rapid progression. Though patients resemble phenotypically chronic myeloid leukemia, the treatment of patients with sole BCR-FGFR1 rearrangement are still challenging for clinicians due to rapid progressive nature and unavailability of uniform treatment guidelines. In present case study, we describe a case of myeloid neoplasm with sole chromosomal abnormality of t(8;22)(p11.2;q11.2)/BCR-FGFR1 rearrangement which is successfully managed by Sorafenib with Azacitidine. Hence our case report suggests that combination of Sorafenib and Azacitidine treatment is effective in sole BCR-FGFR1 rearrangement, however this combination therapy should be studied in large clinical trials.

Novel deletion of exon 3 in TYR gene causing Oculocutaneous albinism 1B in an Indian family along with intellectual disability associated with chromosomal copy number variations.

BACKGROUND: Oculocutaneous albinism (OCA) is an autosomal recessive disorder characterized by hypo-pigmentation of skin, hair, and eyes. The OCA clinical presentation is due to a deficiency of melanin biosynthesis. Intellectual disability (ID) in OCA cases is a rare clinical presentation and appropriate diagnosis of ID is challenging through clinical examination. We report an Indian family with a rare co-inheritance of OCA1B and ID due to a novel TYR gene variant and chromosomal copy number variations. METHODS: We have done a study on three siblings (2 males and 1 female) of a family where all of them presented with hypopigmented skin, hair and eyes. The male children and their father was affected with ID. Targeted exome sequencing and multiplex ligation-dependent probe amplification analysis were carried out to identify the OCA1B and ID associated genomic changes. Further Array-CGH was performed using SurePrint G3 Human CGH + SNP, 8*60 K array. RESULTS: A rare homozygous deletion of exon 3 in TYR gene causing OCA1B was identified in all three children. The parents were found to be heterozygous carriers. The Array-CGH analysis revealed paternally inherited heterozygous deletion(1.9 MB) of 15q11.1-> 15q11.2 region in all three children. Additionally, paternally inherited heterozygous deletion(2.6 MB)of 10q23.2-> 10q23.31 region was identified in the first male child; this may be associated with ID as the father and the child both presented with ID. While the 2nd male child had a denovo duplication of 13q31.1-> 13q31.3 chromosomal region. CONCLUSION: A rare homozygous TYR gene exon 3 deletion in the present study is the cause of OCA1B in all three children, and the additional copy number variations are associated with the ID. The study highlights the importance of combinational genetic approaches for diagnosing two different co-inherited disorders (OCA and ID). Hence, OCA cases with additional clinical presentation need to be studied in-depth forthe appropriate management of the disease.

Comprehensive analysis of genetic factors predicting overall survival in Myelodysplastic syndromes.

Myelodysplastic syndromes (MDS) are a group of clonal hematological disease with high risk of progression to AML. Accurate risk stratification is of importance for the proper management of MDS. Genetic lesions (Cytogenetic and Molecular mutations) are known to help in prognosticating the MDS patients. We have studied 152 MDS patients using cytogenetics and next generation sequencing (NGS). These patients were evaluated and as per cytogenetic prognostic group, majority (92.1%) of the patients classified as good (81.6%) and intermediate (10.5%) group. The NGS identified 38 different gene mutations in our cohort. Among 111 MDS patients with mutations, the most frequent mutated genes were SF3B1 (25.2%), SRSF2 (19%) U2AF1 (14.4%) ASXL1 (9.9%) RUNX1 (9.9%) TET2 (9%), TP53 (9%), ATM (6.3%), NRAS (5.4%) and JAK2/3 (5.4%). The survival analysis revealed that the mutations in TP53, JAK2/3, KRAS, NRAS and ASXL1 were significantly (P < 0.05) associated with poor survival of the patients. The univariate cox and multivariate cox analysis of our study suggested that the age, marrow morphology, cytogenetic and gene mutations with IPSS-R should be considered for prognosticating the MDS patients. We have proposed M-IPSS-R which changed the risk stratification i.e. 66.3% patients had decreased risk whereas 33.75% showed increased risk compared to IPSS-R. The survival analysis also showed that the M-IPSS-R were more significant in separating the patients as per their risk than the IPSS-R alone. The change in risk stratification could help in proper strategy for the treatment planning.

Recent developments in drug resistance mechanism in chronic myeloid leukemia: a review.

A revolution in medical science was marked with the advent of imatinib, a site-specific drug for the management of patients with chronic myeloid leukemia (CML). Imatinib mesylate (also known as Glivec, Gleevec, STI-571, CGP57148), an orally administered 2-phenylaminopyrimidine derivative approved by FDA in 2001 for the treatment for CML, is highly effective in treating the early stages of CML, but remission induced in advanced phase was observed to be relatively short-lived. The primary cause of resistance in patients with CML is the mutations in the BCR-ABL kinase domain. This review discusses the different mechanisms leading to imatinib resistance and various treatment options to over-ride imatinib resistance.

Deletion of ABL/BCR on der(9) associated with severe basophilia.

Chronic basophilic leukemia is a rare form in chronic myeloid leukemia patients. Only limited number of reports are available. Herein, we describe a patient who presented with fatigue, weight loss, leucocytosis, prominent basophilia, and mild eosinophilia. On biopsy, bone marrow was hypercellular with marked basophils. The immunophenotype showed abnormal expression of CD7, which is suggestive of basophilic maturation. Chromosomal analysis from GTG-banded metaphases revealed Ph positivity, and fluorescence in situ hybridization (FISH) with BCR/ABL dual color, dual fusion probe showed single fusion on the der(22) chromosome and ABL/BCR fusion was deleted on the der(9) chromosome. The deletion (ABL/BCR) on der(9) may be associated with basophilia which may be also indicative of the transformation of CML to acute myeloid leukemia.

Chromosomal breakage study in children suspected with Fanconi anemia in the Indian population.

Chromosomal breakage investigation using diepoxybutane induction was carried out in 195 pediatric patients suspected with Fanconi anemia (FA). Chromosomal breakage evaluation showed 33 (17%) patients with classical FA, 9 (4%) with somatic mosaicism FA, (when at least 50% of the metaphases showed chromosomal breakage and radial figures), 25 (13%) with FA with high frequency of chromosomal breakage and without clinical features, and 128 (66%) with suspected FA but had no chromosomal breakage and clinical features of FA. Chromosomal breakage investigation is an important diagnostic tool for differentiating FA from idiopathic aplastic anemia.