Circulating Candidate Biomarkers in Giant Cell Tumors of Bone.

PURPOSE: Approximately 5% of giant cell tumors (GCT) of bone develop pulmonary metastases. Although many biomarkers have been proposed, identification of circulating low abundance molecules may be useful to predict malignant progression. EXPERIMENTAL DESIGN: The hydrogel nanoparticle technique followed by MS was used to detect low molecular weight serum proteins or protein fragments in serum of 20 GCT patients with different clinical course and in ten healthy sera used as control. The most representative low-abundant de novo or differentially abundant proteins were submitted to String database that recognized interconnected activated pathways including protein activation cascade, wound healing, cell-substrate adhesion, and response to stress. Statistics were performed for identification of candidate prognostic factors. RESULTS: Proteome cluster analysis separated metastasis-free from metastatic GCT patients in two well-defined groups where serum levels of signaling transduction mediators and regulators of kinase activity presented a high discriminatory power. Increased expression of proteins STAT5B, GRB2, and OXSR1 was related to a higher probability of metastasis. Multivariate analysis demonstrated that tumor grade and STAT5B were independent prognostic factors. CONCLUSIONS AND CLINICAL RELEVANCE: By using a noninvasive technique, we identified differentially abundant serum candidate biomarkers, also providing prognostic information in patients with GCT of bone.

A proteomic clock of human pregnancy.

BACKGROUND: Early detection of maladaptive processes underlying pregnancy-related pathologies is desirable because it will enable targeted interventions ahead of clinical manifestations. The quantitative analysis of plasma proteins features prominently among molecular approaches used to detect deviations from normal pregnancy. However, derivation of proteomic signatures sufficiently predictive of pregnancy-related outcomes has been challenging. An important obstacle hindering such efforts were limitations in assay technology, which prevented the broad examination of the plasma proteome. OBJECTIVE: The recent availability of a highly multiplexed platform affording the simultaneous measurement of 1310 plasma proteins opens the door for a more explorative approach. The major aim of this study was to examine whether analysis of plasma collected during gestation of term pregnancy would allow identifying a set of proteins that tightly track gestational age. Establishing precisely timed plasma proteomic changes during term pregnancy is a critical step in identifying deviations from regular patterns caused by fetal and maternal maladaptations. A second aim was to gain insight into functional attributes of identified proteins and link such attributes to relevant immunological changes. STUDY DESIGN: Pregnant women participated in this longitudinal study. In 2 subsequent sets of 21 (training cohort) and 10 (validation cohort) women, specific blood specimens were collected during the first (7-14 weeks), second (15-20 weeks), and third (24-32 weeks) trimesters and 6 weeks postpartum for analysis with a highly multiplexed aptamer-based platform. An elastic net algorithm was applied to infer a proteomic model predicting gestational age. A bootstrapping procedure and piecewise regression analysis was used to extract the minimum number of proteins required for predicting gestational age without compromising predictive power. Gene ontology analysis was applied to infer enrichment of molecular functions among proteins included in the proteomic model. Changes in abundance of proteins with such functions were linked to immune features predictive of gestational age at the time of sampling in pregnancies delivering at term. RESULTS: An independently validated model consisting of 74 proteins strongly predicted gestational age (P = 3.8 × 10-14, R = 0.97). The model could be reduced to 8 proteins without losing its predictive power (P = 1.7 × 10-3, R = 0.91). The 3 top ranked proteins were glypican 3, chorionic somatomammotropin hormone, and granulins. Proteins activating the Janus kinase and signal transducer and activator of transcription pathway were enriched in the proteomic model, chorionic somatomammotropin hormone being the top-ranked protein. Abundance of chorionic somatomammotropin hormone strongly correlated with signal transducer and activator of transcription-5 signaling activity in CD4 T cells, the endogenous cell-signaling event most predictive of gestational age. CONCLUSION: Results indicate that precisely timed changes in the plasma proteome during term pregnancy mirror a proteomic clock. Importantly, the combined use of several plasma proteins was required for accurate prediction. The exciting promise of such a clock is that deviations from its regular chronological profile may assist in the early diagnoses of pregnancy-related pathologies, and point to underlying pathophysiology. Functional analysis of the proteomic model generated the novel hypothesis that chrionic somatomammotropin hormone may critically regulate T-cell function during pregnancy.

Potential humoral mediators of remote ischemic preconditioning in patients undergoing surgical coronary revascularization.

Remote ischemic preconditioning (RIPC) by repeated brief cycles of limb ischemia/reperfusion may reduce myocardial ischemia/reperfusion injury and improve patients' prognosis after elective coronary artery bypass graft (CABG) surgery. The signal transducer and activator of transcription (STAT)5 activation in left ventricular myocardium is associated with RIPC´s cardioprotection. Cytokines and growth hormones typically activate STATs and could therefore act as humoral transfer factors of RIPC´s cardioprotection. We here determined arterial plasma concentrations of 25 different cytokines, growth hormones, and other factors which have previously been associated with cardioprotection, before (baseline)/after RIPC or placebo (n = 23/23), respectively, and before/after ischemic cardioplegic arrest in CABG patients. RIPC-induced protection was reflected by a 35% reduction of serum troponin I release. With the exception of interleukin-1α, none of the humoral factors changed in their concentrations after RIPC or placebo, respectively. Interleukin-1α, when normalized to baseline, increased after RIPC (280 ± 56%) but not with placebo (97 ± 15%). The interleukin-1α concentration remained increased until after ischemic cardioplegic arrest and was also higher than with placebo in absolute concentrations (25 ± 6 versus 16 ± 3 pg/mL). Only interleukin-1α possibly fulfills the criteria which would be expected from a substance to be released in response to RIPC and to protect the myocardium during ischemic cardioplegic arrest.

[JAK2V617F mutation and p-STAT5 protein expression in peripheral blood cells of patients with myeloproliferative neoplasm and their relations with clinical features].

This study was aimed to explore the JAK2V617F mutation and p-STAT5 expression in patients with myeloproliferative neoplasm (MPN), and investigate their relations with clinical characteristics so as to provide theoretical basis for clinical practice and target therapy. Forty-five confirmed BCR-ABL-negative MPN patients and 15 healthy adults were enrolled in this study. Real-time fluorescent quantitative PCR and Western blot were respectively used to detect JAK2V617F mutation proportion and p-STAT5 expression level. In addition, their relations with clinical characteristics of MPN were analyzed. The results showed that the positive rate of JAK2V617F mutation in MPN patients was 73.3% (33/45), including 83.3% in polycythemia vera (PV) patients (20/24), 68.8% in essential thrombocythemia (ET) patients (11/16) and 40.0% in idiopathic myelofibrosis (IMF) patients (2/5). Mutation proportions of JAK2V617F in PV, ET and IMF patients were 0.472 ± 0.245, 0.216 ± 0.162, 0.435 ± 0.239 respectively; gray values of p-STAT5 protein in PV, ET and IMF patients were 1.396 ± 0.758, 0.760 ± 0.623, 0.792 ± 0.612 respectively. JAK2V617F mutation proportion and p-STAT5 protein expression level showed a linear correlation (P < 0.05). PV patients with higher JAK2V617F mutation proportion had higher white blood cell count, hemoglobin level and hematocrit, but lower platelet count; ET patients with higher mutation proportion showed older and higher white blood cell count, hemoglobin level and hematocrit, there was no significant difference between platelet count; IMF patients with higher JAK2V617F mutation proportion showed lower white blood cell count, platelet count, hemoglobin level and hematocrit. Patients with JAK2V617F positive mutation were more likely complicated by splenomegaly, bleeding and thrombotic events. It is concluded that the incidence rate of JAK2V617F mutation is high in patients with MPN. Higher mutation proportion always connected with higher expression of p-STAT5, and easily complicates by splenomegaly and thrombotic events.

Aberrant phosphorylation of STAT5 by granulocyte-macrophage colony-stimulating factor in infant cytomegalovirus infection mimicking juvenile myelomonocytic leukemia.

Juvenile myelomonocytic leukemia (JMML) progenitor cells exhibit in vitro hypersensitivity to granulocyte-macrophage colony-stimulating factor (GM-CSF). Phospho-specific flow cytometry using anti-phosphorylated STAT5 antibody is a new method recently reported to detect GM-CSF hypersensitivity of cells. However, colony assays using methylcellulose medium to measure GM-CSF-hypersensitivity remain as the current gold standard. Interestingly, cytomegalovirus (CMV) infection in infancy often presents with a variety of clinical symptoms that mimic JMML, with CMV giving a positive result by colony assay. We wanted to determine whether aberrant STAT5 activation occurs in CMV infection by using phospho-specific flow cytometry, and to ascertain whether this method is effective at discriminating CMV infection from JMML. Peripheral blood mononuclear cells from patients with JMML and CMV infection displayed an elevated proportion of p-STAT5 cells after low-dose GM-CSF stimulation when compared with cells from normal individuals. However, we found no significant differences in the percentage of p-STAT5 positive cells from patients with CMV infection and JMML at any doses of the GM-CSF doses used. We conclude that patients with CMV infection cannot be discriminated from patients with JMML by this new diagnostic method.

Multiparametric flow cytometric analysis of signal transducer and activator of transcription 5 phosphorylation in immune cell subsets in vitro and following interleukin-2 immunotherapy.

PURPOSE: Treatment with interleukin (IL)-2 (Proleukin) yields a 10% to 20% response rate in patients with metastatic melanoma or metastatic renal cell carcinoma. IL-2 is known to activate distinct signals within lymphocytes, including the Janus-activated kinase-signal transducer and activator of transcription (STAT) pathway. We examined the phosphorylation of STAT5 (P-STAT5) in IL-2-stimulated immune cells of normal subjects and in patients receiving IL-2 therapy using a novel flow cytometric assay to characterize the pattern and level of activation within immune subsets. EXPERIMENTAL DESIGN: Normal peripheral blood mononuclear cells (PBMC) were treated in vitro with IL-2 and analyzed for P-STAT5 using an intracellular flow cytometric assay. PBMC were simultaneously evaluated for the induction of STAT5-regulated genes at the transcript level. PBMC were also obtained from patients immediately before and 1 hour after treatment with high-dose IL-2 and analyzed for the presence of P-STAT5 within immune cell subsets by dual-variable intracellular flow cytometry. RESULTS: In vitro IL-2 treatment produced a rapid and dose-dependent increase in P-STAT5 within normal PBMC that correlated with the induction of transcript for the IL-2-responsive genes CIS, Pim-1, and SOCS1 (correlation coefficients 0.8628, 0.6667, and 0.7828, respectively). Dose-dependent induction of P-STAT5 was detected in PBMC for up to 18 hours following in vitro pulse stimulation with IL-2. P-STAT5 was detected within a subset of normal donor CD4(+) T cells (52.2 +/- 15.0%), CD8(+) T cells (57.6 +/- 25.8%), and CD56(+) natural killer (NK) cells (54.2 +/- 27.2%), but not CD14(+) monocytes or CD21(+) B cells, following in vitro IL-2 treatment. The generation of P-STAT5 within immune cell subsets after the therapeutic administration of IL-2 varied significantly between individuals. NK cells were noticeably absent in the posttreatment sample, a finding that was consistent for all patients examined. Surprisingly, activated STAT5 persisted within CD4(+) and CD8(+) T lymphocytes, as well as CD56(+) NK cells, for up to 3 weeks post-IL-2 treatment in three patients who exhibited a clinical response to therapy and in a fourth who exhibited a significant inflammatory response after 11 doses of therapy (first cycle). CONCLUSIONS: The flow cytometric assay described herein is a highly efficient and reliable method by which to assess the cellular response to IL-2 within PBMC and specific immune effector subsets, both in vitro and in the clinical setting. Assessment of P-STAT5 in patient PBMC in response to therapeutic IL-2 administration reveals disparate responses between immune cell subsets as well as interpatient variation. Persistent activation of STAT5 within NK and T cells was an unexpected observation and requires further investigation.

JAK2V617F mutation in platelets from essential thrombocythemia patients: correlation with clinical features and analysis of STAT5 phosphorylation status.

OBJECTIVE: JAK2V617F mutation rate in granulocytes from essential thrombocythemia (ET) patients ranges from 12% to 57%. Our aim was to evaluate the frequency of this mutation in the megakaryocyte/platelet lineage, and to analyze its clinical associations in ET. In addition, we determined whether this mutation leads to constitutive phosphorylation of STAT5 in platelets. MATERIALS AND METHODS: Consecutive patients with ET were included and clinical features were retrospectively reviewed. Mutation detection was performed by allele specific RT-PCR (AS-RT-PCR) and Restriction fragment length polymorphism (RFLP) analysis of platelet RNA. Constitutive phosphorylation of STAT5 in platelets was studied by Western blot. RESULTS: Fifty patients were included, 24 (48%) were JAK2V617F-positive by both AS-RT-PCR and RFLP. Patients with the mutation were older, had significantly higher hemoglobin levels, and lower platelet counts. Besides, higher frequency of thrombotic events was found in JAK2V617F-positive patients younger than 60, 53% vs. 4%, P = 0.0008. In addition, constitutive STAT5 phosphorylation was not detected in platelets from 12 patients. CONCLUSIONS: The frequency of the JAK2V617F mutation in platelets was similar to that reported in granulocytes in the literature, suggesting this mutation does not occur as an isolated event in the megakaryocyte lineage. If confirmed in a larger study, the observed higher frequency of thrombosis in patients younger than 60 might be a useful predictive marker for thrombosis in this subset of patients. Even though this mutation has been predicted to constitutively activate the JAK2 kinase, spontaneous phosphorylation of STAT5 does not seem to be a frequent finding in platelets from ET patients.

Hepatic growth hormone resistance during sepsis is associated with increased suppressors of cytokine signaling expression and impaired growth hormone signaling.

OBJECTIVE: During sepsis, a two- to four-fold increase in circulating growth hormone (GH) is seen with 40-50% reductions in plasma insulin-like growth factor (IGF)-I. The suppressors of cytokine signaling (SOCS), inhibitors of cytokine, and growth factor signaling via the janus kinase (JAK)/signal transducer and activator of transcription (STAT) pathway have been implicated in the development of hepatic GH resistance. In this study we examine the effects of sepsis on GH-induced IGF-I expression and potential mechanisms for GH resistance. DESIGN: Prospective experimental study. SETTING: University research laboratory. SUBJECTS: Male Sprague-Dawley rats. INTERVENTIONS: Rats were randomized to laparotomy alone (control) or implantation of fecal agar pellets inoculated with Escherichia coli and Bacteroides fragilis (sepsis). GH was injected intravenously to assess hepatic IGF-I synthesis and GH signaling. MEASUREMENTS AND MAIN RESULTS: Plasma IGF-I was measured in both groups at baseline (4 hrs postoperatively) and then again at 12 hrs and 24 hrs after GH administration. Basal IGF-I levels were similar in both groups, but controls had a 35% increase in IGF-I at 12 hrs, whereas septic rats demonstrated reductions in circulating IGF-I at 12 and 24 hrs after GH. Hepatic expression of SOCS-1, -2, -3, and cytokine-inducible SH2-containing protein (CIS) were determined at 1, 4, 8, and 24 hrs in septic and control rats by Northern blot. SOCS-1, SOCS-3, and CIS messenger RNA in liver were increased from 4 to 8 hrs after the induction of sepsis (p < .05 for SOCS-1 and -3). Total GH receptor (GHR), JAK2, and STAT5 signaling proteins and the time course of STAT5 activation were also measured in liver after recombinant human GH administration by immunoblot and electrophoretic mobility shift analysis. Levels of total GHR, JAK2, and STAT5 were unaltered in liver from septic rats. However, phosphorylated STAT5 and STAT5 DNA binding were significantly reduced 30 mins after GH administration in liver from septic rats. CONCLUSIONS: Sepsis diminished STAT5 phosphorylation and activity in liver as well as plasma IGF-I following GH administration. Hepatic messenger RNA expression of SOCS-1, SOCS-3, and CIS was transiently increased during abdominal sepsis and temporally associated with the development of hepatic GH resistance.