Immunomodulatory drugs lenalidomide and pomalidomide are synthetic compounds derived by modifying the chemical structure of thalidomide to improve its potency and reduce its side effects. Lenalidomide is a 4-amino-glutamyl analogue of thalidomide that lacks the neurologic side effects of sedation and neuropathy and has emerged as a drug with activity against various hematological and solid malignancies. It is approved by FDA for clinical use in myelodysplastic syndromes with deletion of chromosome 5q and multiple myeloma. Lenalidomide has been shown to be an immunomodulator, affecting both cellular and humoral limbs of the immune system. It has also been shown to have anti-angiogenic properties. Newer studies demonstrate its effects on signal transduction that can partly explain its selective efficacy in subsets of MDS. Even though the exact molecular targets of lenalidomide are not well known, its activity across a spectrum of neoplastic conditions highlights the possibility of multiple target sites of action.
Pancytopenia, a hematologic condition, is a decrease in all three blood cell lines. The two main etiologies include decreased production or increased destruction of cells, as seen in nutritional deficiencies or liver cirrhosis, respectively. Pancytopenia commonly presents with fever, splenomegaly, and lymphadenopathy. Initial workup includes complete blood count, metabolic panel, peripheral smear, anemia panel, erythrocyte sedimentation rate, C-reactive protein, and lactate dehydrogenase. Workup also involves excluding toxins, human immunodeficiency virus (HIV), drug effects, and infectious etiologies. Malignancies can cause impaired production of cell lines. For hematologic malignancies, a bone marrow biopsy is performed. In patients above the age of 55 who are diagnosed with acute leukemia, acute lymphoblastic leukemia (ALL) is known to make up approximately 20% of all cases. Furthermore, ALL requires the presence of more than 20% lymphoblasts seen on bone marrow biopsy. Treatment includes induction, consolidation, and maintenance chemotherapy.We report the case of a 63-year-old male with a history of liver cirrhosis from non-alcoholic fatty liver disease who presented for consultation due to pancytopenia without signs of fever or lymphadenopathy. Imaging revealed cirrhosis, ascites, and moderate splenomegaly while the workup for toxins, infections, and HIV was negative. He presented to the hospital with worsening anasarca and acutely worsening pancytopenia. Peripheral smear showed pancytopenia with no definitive blasts, whereas bone marrow biopsy revealed B-lymphoblastic leukemia. He was transferred to a tertiary center for induction chemotherapy but ultimately transitioned to supportive care due to intolerance. This case demonstrates the importance of having a high suspicion for leukemia with an acute decline in all three cell lines, thereby prompting a bone marrow biopsy. Although lacking in the literature, adult patients with ALL can present with splenomegaly without fever or lymphadenopathy. These examination findings are clinical clues to evaluate for underlying malignancies in patients with pancytopenia, although coexisting etiologies may exist. Lastly, peripheral smear alone is insufficient to screen for diagnosis of ALL as it can be normal despite bone marrow involvement.
Chronic idiopathic myelofibrosis (MF) is a clonal hematopoietic disorder that leads to progressive marrow fibrosis and peripheral cytopenias. Very little is known about the role of aberrant DNA methylation in the pathobiology of this disease. Whole genome methylation was analyzed by a recently described novel method, the HELP assay (HpaII tiny fragment Enrichment by Ligation-mediated PCR; Khulan et al, Genome Res. 2006 Aug;16(8)) that uses differential methylation specific restriction digestion by HpaII and MspI followed by amplification, two color labeling and cohybridization to quantitatively determine individual promoter methylation. A whole genome human promoter array (Nimblegen) was used to determine the level of methylation of 25626 gene promoters by calculating HpaII/MspI cut fragment intensity ratio. Peripheral blood leucocytes from 9 patients with IMF were compared to 9 age-matched normal and anemic controls. Gene expression analysis was performed using 37K oligo maskless arrays using cDNA from the same samples. Methylation analysis showed that myelofibrosis samples clustered separately from normal and anemic controls when grouped by unsupervised clustering based on Pearson’s correlation coefficient. On the other hand, global gene expression demonstrated no clear cut differences between myelofibrosis and control samples suggesting that methylation profiling has greater discriminatory power when compared to conventional gene expression profiling. A high correlation (r=0.88–0.96) was observed between whole genome methylation profiles of matched sets of bone marrow and peripheral blood leucocyte samples from selected patients demonstrating that peripheral blood leucocytes can act as a valid surrogates for epigenomic analysis. Further analysis showed that genes aberrantly methylated in all myelofibrosis samples included v-myc, histone 2A, TNF, TNF Receptor1, FGF14 and others. Functional pathway analysis by Ingenuity showed that pathways involved in Inflammation and Cell signaling were the most affected by epigenetic silencing. Most interestingly, a large proportion of gene promoters were also aberrantly hypomethylated. These included genes for chemokine CXCL13, APC, IL-3, STAT2 and others. The pathways most activated by hypomethylation were involved in hematopoiesis and cell growth and proliferation demonstrating the biological validity of our analysis. Thus, our data demonstrates that myelofibrosis is characterized by distinct epigenetic aberrations that are preserved in peripheral blood leucocytes. These can be the basis of future studies on pathogenesis and diagnosis for this disease and lead to translational studies with agents targeting DNA methylation.
Myelodysplasia (MDS) is a clonal hematopoietic disorder that leads to ineffective hematopoiesis and peripheral cytopenias. DNMT inhibitors such as azacytidine have led to clinical responses in patients, though the genes affected by epigenetic alterations are not well known. Whole genome DNA methylation was analyzed by a recently described novel method, The HELP assay (HpaII tiny fragment Enrichment by Ligation-mediated PCR; Khulan et al, Genome Res. 2006 Aug;16(8)) that uses differential methylation specific restriction digestion by HpaII and MspI followed by amplification, two color labeling and cohybridization to quantitatively determine individual promoter island methylation. A whole genome human promoter array (Nimblegen) was used to determine the level of methylation of 25626 gene promoters by calculating HpaII/MspI cut fragment intensity ratio. Peripheral blood leucocytes from 13 patients with MDS were compared to 9 age matched normal and anemic controls. Gene expression analysis was performed using 37K oligo maskless arrays on cDNA obtained from the same samples. Analysis showed that whole genome methylation profiling has greater discriminatory power in separating clusters of MDS samples from normal and anemic controls when compared to gene expression analysis. Unsupervised clustering based on epigenetic profiling demonstrated that only two cases of early MDS clustered with normals as compared to absolutely no separation between MDS and normals with clustering based on gene expression patterns. A high correlation (r=0.88–0.96) was observed between global methylation profiles of matched sets of bone marrow and peripheral blood leucocyte samples from selected patients demonstrating that peripheral blood leucocytes can be a valid surrogate for epigenomic analysis. Further analysis showed that genes consistently aberrantly methylated in MDS included Syk kinase, HOXB3, several histone acetyltranferases and others. Functional analysis by Ingenuity showed that cancer and cell signaling pathways were the most affected by epigenetic silencing. Most interestingly, a large proportion of gene promoters were also aberrantly hypomethylated. These included genes from Ras oncogene family, the CDC42 GTPase, various methyl binding proteins and other proteins mainly encoding for cancer and hematopoiesis functional pathways, thus biologically validating our analysis. Therefore, our data demonstrates that MDS is characterized by distinct epigenetic aberrations that are preserved in peripheral blood leucocytes. These can be the basis of future studies on pathogenesis and diagnosis for this disease and can potentially uncover a new set of therapeutic gene targets.
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