Expression Changes of Hypoxia-Inducible Factor-1α in G-CSF Induced Hematopoietic Stem Cell Mobilization / 中国实验血液学杂志

OBJECTIVE@#To investigate the expression and its relative mechanism of hypoxia-inducible factor-1α(HIF-1α) in bone marrow(BM) of mice during G-CSF mobilization of hematopoietic stem cells (HSC) .@*METHODS@#Flow cytometry was used to detect the proportion of Lin-Sca-1+ c-kit+ (LSK) cells in peripheral blood of C57BL/6J mice before and after G-CSF mobilization. And the expression of HIF-1α and osteocalcin (OCN) mRNA and protein were detected by RQ-PCR and immunohistochemistry. The number of osteoblasts in bone marrow specimens of mice was counted under the microscope.@*RESULTS@#The proportion of LSK cells in peripheral blood began to increase at day 4 of G-CSF mobilization, and reached the peak at day 5, which was significantly higher than that of control group (P<0.05). There was no distinct difference in the expression of HIF-1α mRNA between bone marrow nucleated cells and osteoblasts of steady-state mice (P=0.073), while OCN mRNA was mainly expressed in osteoblasts, which was higher than that in bone marrow nucleated cells (P=0.034). After mobilization, the expression level of HIF-1α increased, but OCN decreased, and the number of endosteum osteoblasts decreased. The change of HIF-1α expression was later than that of OCN and was consistent with the proportion of LSK cells in peripheral blood.@*CONCLUSION@#The expression of HIF-1α in bone marrow was increased during the mobilization of HSC mediated by G-CSF, and one of the mechanisms may be related to the peripheral migration of HSC induced by osteoblasts inhibition.

Efficacy and Safety of Pegfilgrastim in Indian Patients.

Context: Pegfilgrastim, a pegylated recombinant granulocyte colony stimulating factor, promotes the hematopoietic recovery after cytotoxic chemotherapy and is marketed in India as PegstimTM. Aims: This post marketing surveillance study was undertaken to evaluate the efficacy and safety of PegstimTM in clinical practice in Indian patients. Material and Methods: Investigators participating in this post marketing surveillance were asked to capture data of all the patients who were given PegstimTM along with cytotoxic chemotherapy for their underlying malignancy. PegstimTM was given as a single subcutaneous dose approximately 24 hours after administration of cytotoxic chemotherapy and patients were followed up for 14 days with blood counts at baseline and every alternate day. Each cycle of chemotherapy in which PegstimTM was administered was considered as a distinct patient entity for efficacy and safety analysis. Results: PegstimTM injections were used in 213 patients and led to an increase in Absolute Neutrophil Count (ANC) as early as 2 days after administration of the drug with mean percent increase in ANC of 129.8 ± 210.9% at the end of 14 days. The overall incidence of moderate-severe (grade III/IV) febrile neutropenia in the total population studied was 6.1% (13 patients). Intravenous antibiotics were used in 10 (4.7%) patients while 4 (1.9%) patients required hospitalization. A total of 57 adverse events were reported in 32 patients during the entire course of the study, the most common being musculoskeletal pain in 22 (10.3%) patients. Conclusions: The results from this post marketing surveillance study support the efficacy and tolerability of PegstimTM used for preventing neutropenia across various tumor types and regimens in Indian patients.

Factor estimulante de colonias de granulocitos en pacientes con cáncer / Granulocyte-colony stimulating factor in patients with cancer

Se efectuó un estudio descriptivo, longitudinal y prospectivo de 26 pacientes con cáncer en diferentes localizaciones asociado a leucopenia y neutropenia inducidas por citotóxicos, atendidos en el Servicio de Quimioterapia del Hospital Oncológico Docente Conrado Benítez de Santiago de Cuba, de mayo del 2011 a igual mes del 2012, con vistas a determinar el efecto del factor de colonias granulocítica recombinante Ior® LeukoCIM --producido por el Centro de Inmunología Molecular de Ciudad de La Habana-- en ellos mediante la realización de conteos globales de leucocitos y neutrófilos, antes y después de aplicar el tratamiento. En la serie predominaron el sexo femenino, el cáncer de mama y el estadio clínico II; también se obtuvo que 92,3 por ciento de los pacientes respondieron satisfactoriamente a la terapia, el estadio clínico del cáncer no modificó el efecto mielodepresor de los citotóxicos ni el mieloestimulador de la hormona, y el cisplatino y la adriamicina se relacionaron con las neutropenias mayores y la falta de reacción al factor. Para finalizar, el Ior® LeukoCIM estimuló el sistema granulopoyético de la mayoría de los afectados

A descriptive, longitudinal and prospective study was conducted in 26 patients with cancer in different locations associated with leukopenia and neutropenia induced by cytotoxic drugs, treated at the Chemotherapy Department of Conrado Benítez Teaching Oncology Hospital of Santiago de Cuba, from May 2011 to the same month of 2012, with the purpose of determining the effect of the recombinant granulocyte-colony factor Ior® LeukoCIM --produced by the Center of Molecular Immunology in Havana city-- in them by means of global counts of leukocytes and neutrophils before and after applying the treatment. Female sex, breast cancer and clinical stage II prevailed in the series. It was also found that 92.3 percent of patients responded successfully to the therapy, the clinical stage of cancer did not modify the myelosuppressive effect of cytotoxic drugs nor the myelostimulating effect of hormone, and cisplatin and adriamycin were related to higher neutropenia and lack of reaction to the factor. Finally, the Ior® LeukoCIM stimulated the granulopoietic system of most patients

Granulocyte Stimulating Factor Attenuates Hypoxic-ischemic Brain Injury by Inhibiting Apoptosis in Neonatal Rats

PURPOSE: This study was undertaken to determine the neuroprotective effect of granulocyte stimulating factor (G-CSF) on neonatal hypoxic-ischemic brain injury. MATERIALS AND METHODS: Seven-day-old male newborn rat pups were subjected to 110 minutes of 8% oxygen following a unilateral carotid artery ligation. Apoptosis was identified by performing terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) staining and flow cytometry with a combination of fluorescinated annexin V and propidium iodide (PI) and JC-1 (5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolyl-carbocyanine iodide). The extent of cerebral infarction was evaluated at 2 weeks after recovery. RESULTS: With a single dose (50microgram/kg) of G-CSF treatment immediately after hypoxic-ischemic insult, hypoxia-ischemia induced increase in TUNEL-positive cells, annexinV+/PI- and JC-1 positive apoptotic cells in the ipsilateral cerebral cortex was significantly reduced at 24 hours, measured by flow cytometry, and the extent of cerebral infarction at 2 weeks after recovery was also significantly attenuated compared to the hypoxia-ischemia control group. CONCLUSION: Our data suggest that G-CSF is neuroprotective by inhibiting apoptosis, thereby reducing the ensuing cerebral infarction in a newborn rat pup model of cerebral hypoxia-ischemia (HI).

Perspectivas de las células tallo en infartos del miocardio / Stem cell perspectives in myocardial infarctions

Myocardial infarction is the leading cause of congestive heart failure and death in industrializated countries. The cellular cardiomyoplasty has emerged as an alternative treatment in the regeneration of infarted myocardial tissue. In animals' models, differents cellular lines such as cardiomyocites, sheletal myoblast, embryonic stem cells and adult mesenchymal stem cells has been used, resulting in an improvement in ventricular function and decrease in amount of infarted tissue. The first three cells line have disvantages as they are allogenics and are difficult to obtain. The adult mesenchymal stem cells are autologous and can be obtained throught the aspiration of bone marrow or from peripherical circulation, prior to stimulating with cytokines (G-CSF). The implantation in humans with recent and old myocardial infarction have shown improvements similar to those shown in animal models. These findings encourage the continued investigation in the mechanism of cellular differentiation and implantation metods in infarted myocardial tissue.

El infarto del miocardio es la principal causa de falla cardiaca y muerte en países industrializados. A la fecha, la cardiomioplastia celular ha emergido como una alternativa en la regeneración de infartos miocárdicos. En modelos animales se han utilizado diferentes líneas celulares como cardiomiocitos fetales, mioblastos de músculo esquelético, células tallo embrionarias y células tallo mesenquimales del adulto, con mejoría en la función ventricular y disminución del área de tejido infartado. Las tres primeras líneas celulares tienen desventajas porque son alogénicas y difíciles de obtener. Las células tallo mesenquimales del adulto son autólogas y se pueden obtener de aspirados de médula ósea o de la circulación periférica previa estimulación con citocinas (G-CSF). La implantación de estas células en seres humanos con infartos del miocardio recientes y antiguos han mostrado mejorías similares a los reportes con modelos animales. Estos hallazgos alientan a continuar la investigación clínica y básica en busca de los mecanismos de diferenciación celular y selección de vías de implantación, en tejido miocárdico infartado.

Clinical Usefulness of the Hematopoietic Progenitor Cell Counts in Predicting the Optimal Timing of Peripheral Blood Stem Cell Harvest

Although enumeration of CD34+ cells in the peripheral blood (PB) on the day of apheresis predicts the quantity of those cells collected, the flow cytometric techniques used are complex and expensive, and several hours are required to obtain the result in the clinical practice setting. The Sysmex SE-9000 automated haematology analyzer provides an estimate of immature cells, called hematopoietic progenitor cells (HPC). The aim of this study was to evaluate the clinical usefulness of HPC in predicting the optimal timing of peripheral blood progenitor cells (PBPC) harvest. Studies were performed on 628 aphereses from 160 patients with hematologic or solid malignancies. Spearman's rank statistics was used to assess correlation between HPC, WBC, mononuclear cells (MNC), and CD34+ cells. A receiver operating characteristic (ROC) curve was drawn for cutoff value of HPC, and predictive values of the chosen cutoff value of HPC for different target CD34+ cell collections were calculated. The PB HPC had a stronger correlation (rho=0.592, por=1 x10(6)/kg with sensitivity of 75%. Positive and negative predictive values of HPC >or=50x10(6)/L for CD34+ cells >or=1x10(6)/kg were 59.7% and 81.1%, respectively. In the clinical practice setting, applying variable cutoff values of HPC would be a useful tool to predict the optimal timing of PBPC collection.

Effect of G-CSF on peripheral blood progenitor cell mobilization and collection from healthy donors.

We studied granulocyte colony-stimulating factor (G-CSF) mediated peripheral blood progenitor cells (PBPC), which were mobilized and collected from healthy donors for allogeneic transplantation. A total of 26 donors, age ranged from 21-41 years were mobilized with G-CSF at a dose of 7.5 microg/kg/day subcutaneously for 5 days and the collection was started on day 5. The CD34 cell counts reached a maximum on day 5 and subsequently declined despite continually given G-CSF. White blood cells (WBC), absolute neutrophil counts (ANC), absolute lymphocytes (AL) and their subsets, absolute mononuclear cells (AMNC), colony-forming unit-granulocyte, macrophage (CFU-GM) and CD34+ cells were increased about 6, 9, 2, 3, 34 and 40-fold, respectively, but red blood cells (RBC), hematocrit (Hct) and platelets (Pit) decreased on day 5 when compared to day 0. All parameters decreased after stem cell collection. For stem cell collection by Cobe Spectra, we used a blood volume of 19.27 +/- 4.65 liters, flow rate of 60.53 +/- 10.03 ml/minute, acid citrate dextrose solution (ACD)/blood ratio of 1:13.31, the final product volume was 314.14 +/- 72.24 ml, collection time was 325.40 +/- 73.36 minutes and one or two procedures were sufficient. The correlation between the number of CD34+ cells/kg, CFU-GM/kg and MNC/kg found in the harvested product and CD34 cells can be used for determining the necessary amount of progenitor cells for transplantation.

Increased levels of multiple forms of dihydrofolate reductase in peripheral blood leucocytes of cancer patients receiving haematopoietic colony-stimulating factors: interim analysis

The precise mechanism whereby granulocytes proliferate when haematopoietic colony stimulating factors (CSFs) are used in neutropenic cancer patients is poorly understood. The purpose of this study was to investigate whether these cytokines bring about leucocyte proliferation by increasing the levels of multiple forms of dihydrofolate reductase (DHFR). Blood samples were collected from 36 cancer patients (25 males and 11 females) with chemotherapy-induced neutropenia. One sample of blood from each patient was obtained before therapy either with CSF, such as granulocyte colony stimulating factor (G-CSF) and granulocyte-macrophage colony stimulating factor (GM-CSF) or with placebo, and another one at the time of resolution of neutropenia. Peripheral blood leucocytes in these blood samples were counted, separated and lysed. From lysates, cytoplasmic samples were prepared and analyzed for active DHFR by a methotrexate-binding assay and for total immunoreactive DHFR by an enzyme linked immunosorbent assay. The increase in total leucocyte count (TLC) was most prominent (P < 0.005) in the CSF group and less so (P < 0.05) in the placebo group. The mean +/- SD concentration values of active DHFR before and after stimulation with GM-CSF found were to be 0.34 +/- 0.4 ng/mg protein and 0.99 +/- 0.82 ng/mg protein, respectively, and in the group treated with G-CSF, 0.24 +/- 0.32 ng/mg protein and 1.18 +/- 2.4 ng/mg protein, respectively. This increase in active DHFR after stimulation with CSF was statistically significant (P <0.05). Similarly, concentration values of immunoreactive but nonfunctional form of DHFR (IRE) were 110 +/- 97 ng/mg protein and 605 +/- 475 ng/mg protein before and after stimulation with GM-CSF, and 115 +/- 165 ng/mg protein and 1,054 +/- 1,095 ng/ mg protein before and after stimulation with G-CSF. This increase in concentration of IRE after stimulation with GM-CSF or G-CSF was statistically significant (P < 0.005). In the control group, there was an increase in the concentration of both active DHFR and IRE after treatment with placebo. However, this was not statistically significant. Resolution of neutropenia was quicker in the groups treated with CSF compared to the control group. Results of this study indicate that colony stimulating factors (G-CSF and GM-CSF) induce white cell proliferation by increasing the levels of multiple forms of DHFR.

Comparison of CD34+ subsets and clonogenicity in human bone marrow, granulocyte colony-stimulating factor-mobilized peripheral blood, and cord blood

To compare the clonogenicity and distribution of CD34+ subsets in bone marrow (BM), granulocyte colony-stimulating factor (G-CSF) mobilized peripheral blood (PB) and cord blood (CB), we analyzed in vitro colony formation and CD34+ cells co-expressing differentiation molecules (CD38, HLA-DR), myeloid associated molecules (CD13, CD33), a T-cell associated molecule (CD3), and a B-cell associated molecule (CD19) from mononuclear cells (MNCs) in the three compartments. The proportions of CD34+CD38- cells (BM: 4.4+/-2.8%, PB: 5.3+/-2.1%, CB: 5.9+/-3.9%) and CD34+HLA-DR cells (BM: 4.7+/-3.4%, PB: 5.5+/-2.3%, CB: 6.1+/-3.7%) did not differ significantly among the compartments. In contrast, a significantly higher proportion of CD34 cells of PB and CB co-expressed CD13 (75.0+/-11.4%, 77.7+/-17.3%) and CD33 (67.1 +/-5.7%, 56.8+/-10.3%) compared with those of BM (43.0+/-6.3%, 27.6+/-5.1%) and a significantly higher number of granulocyte-macrophage colony-forming units (CFU-GM) and erythroid burst-forming units (BFU-E) were detected in MNCs derived from PB and CB compared with those from BM (p<0.01). The proportion of CD34+CD19+ cells was higher in BM (34.9+/-11.9%) than those in PB (5.6+/-3.0%) and CB (4.7=2.1%) (p<0.05). The proportion of CD34+CD3+ was comparable in all three compartments. In conclusion, our findings show that MNCs of mobilized PB and CB display similar phenotypic profiles of CD34+ subsets and clonogenicity, different from those of BM.

Citocina. ¿La terapéutica del futuro? / Citokines. The therapy in the future?

Se definen qué son las citocinas y se describe el papel de la interleucina-1 como un ejemplo de las fuciones que desempeñan. Actualmente se han encontrado más de 40 citocinas que se han agrupado en 1) factores de crecimiento, 2) interleucinas, 3) interferones, 4) quimiocinas y 5) otras. Hoy en día, mediante transfección genética, se han preparado 11 citocinas para aplicación terapéutica; de éstas, la eritropoyetina, el factor estimulante de colonias granulocito-monocito y el factor estimulante de colonias granulocito-monocito y el factor estimulante de colonias de granulocitos se utilizan con buen éxito para estimular la producción de glóbulos rojos, granulocitos y de monocitos en algunas patologías con daño a la médula ósea. Después de varios años de aplicación clínica, el uso de los interferones alfa, beta y gamma se han visto limitados a infecciones como la hepatitis B o C y algunos tipos de cáncer como la leucemia de células peludas y la leucemia granolocítica crónica. Las otras citocinas, como las interleucinas 2, 3, 4, 6 y el factor estimulante de colonias de monocitos, empiezan a mostrar su utilidad terapéutica en algunos ensayos clínicos. Se espera que en el futuro algunas de ellas, solas o combinadas con otras u otros activadores inmunológicos curen enfermedades como el síndrome de inmunodeficiencia adquirida o el cáncer

Biological therapies in bone marrow transplantation.

Biological materials are increasingly being utilized in bone marrow transplants. Alpha interferon is given post autotransplants, in an attempt to eradicate residual cancer cells. Colony stimulating factors (granulocyte macrophage colony stimulating factor: GM-CSF and granulocyte colony stimulating factor: G-CSF) are widely used after bone marrow transplants to accelerate bone marrow recovery. Their use has been associated with fewer infections, shorter hospital stay and lower procedural costs. Both these factors benefit some patients with graft failure as well. The recent demonstration that both GM-CSF and G-CSF can mobilize large numbers of haematopoietic stem cells into the peripheral blood has resulted in the widespread use of peripheral blood stem cell transplantation as an alternative to autologous bone marrow transplantation. Identification of tumour cells in the mobilized peripheral blood stem cells, however, has raised some concern.