JAK2V617F is a gain of function point mutation that occurs in Myeloproliferative Neoplasm (MPN) patients and deranges their hemopoiesis at cellular level. We speculate that hyperfunctioning JAK2 can modify osteoclast (OCL) homeostasis in MPN patients. We studied 18 newly diagnosed MPN patients and four age-matched normal donors (ND). Osteoclast forming assays started from selected monocytes also and under titrated concentrations of the JAK2 Inhibitor AG-490 (Tyrphostin). Genomic DNA was extracted from the formed osteoclasts, and the JAK2V617F/JAK2WT genomic DNA ratio was calculated. OCLs formed from monocytes derived from heterozygous (Het) for the JAK2V617F mutation MPN patients, were three times more compared to those from JAK2 wild type (WT) MPN patients (p=0,05) and from ND as well (p=0,03). The ratio of JAK2V617F/JAK2WT genomic DNA was increased in OCLs compared to the input monocyte cells showing a survival advantage of the mutated clone. In comparison to ND and JAK2 WT MPN patients, OCLs from patients JAK2V617F (Het) were more susceptible to JAK2 inhibition. These alterations in osteoclast homeostasis, attributed to mutated JAK2, can deregulate the hemopoietic stem cell niche in MPN patients.
Background: Farnesyltransferase inhibitors (FTIs) target proteins needing prenylation for functioning. Tipifarnib (Zarnestra®), a potent and specific inhibitor of farnesyltransferase, showed considerable activity in phase I and II studies in myelodysplastic syndrome (MDS), but the optimal regimen achieving high response rates with minor myelosuppression remains to be determined. Additionally, a direct effect on purified human MDS progenitors has not yet been shown. Methods: MDS and normal CD34+ cells isolated by using immunomagnetic beads were plated for short-term cultures in semisolid media or liquid cultures for flow-cytometric assessment of apoptosis in the presence of either DMSO or various FTI concentrations. Results: Tipifarnib exerted selective in vitro toxicity against clonal MDS hematopoiesis at concentrations less than 10 nM the effect being more prominent in white cell progenitors. This action was not due to apoptosis induction as both normal and MDS progenitors displayed equivalent DiOC3 and annexin V expression up to 72 h after exposure to tipifarnib. Conclusion: The leukemic clone is more susceptible in tipifarnib than normal progenitors. Since myelosuppression represents the main obstacle in the clinical use of tipifarnib in MDS, further reduction of the currently employed dose will potentially result in a more tolerable regimen without compromising its antileukemic action.
Background/Aims: Philadelphia chromosome-negative myeloproliferative neoplasms (MPNs) share the same acquired lesion JAK2V617F and may exhibit substantial overlap. Variability in JAK activation and allele burden, complemented by host, genetic and non-genetic modifiers, determine the phenotype. The aim of this study was to investigate the presence of the JAK2 mutation in association with the ratio of metallopeptidases inhibitors (TIMPs) to tissue metallopeptidases (MMPs) in MPNs, where inhibitory rather than proteolytic activity in marrow microenvironment appears to predominate. Methods: 94 patients with polycythemia vera, essential thrombocythemia and primary myelofibrosis, and 102 healthy individuals were evaluated. Allele-specific PCR and RFLP were used to detect JAK2 and genomic status. Serum concentrations of MMP and TIMP were measured by ELISA. The parameters were assessed with covariance analysis, and adjusted for gender, age and co-morbidity. Results: Mutation frequency was 81.91%. Abnormal TIMP/MMP ratios were identified in all three diseases. JAK2 mutation was correlated with significant changes in TIMP concentrations. Conclusions: Identification of an abnormal TIMP/MMP ratio in all three diseases, regardless of the JAK2 status, indicates invariable marrow remodeling. In this particular group of patients, presence of a JAK2V617F mutation, being associated with even higher ratios, appears to be a concurring participant in bone marrow-reforming processes. Additional research may delineate correlates with the JAK2 allelic burden.
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