PTERIDINES FROM BONE MARROW AND BODY FLUIDS FROM HEALTHY DONORS AND FROM DIFFERENT PATIENTS

1985 ◽  
pp. 577-592
Author(s):  
H.-J. Zeitler ◽  
B. Andondonskaja-Renz
Keyword(s):  
Bone Marrow ◽  
Body Fluids ◽  
Healthy Donors

scholarly journals Should We Stop Collecting the Preoperative Autologous Blood before Bone Marrow Harvest?

2021 ◽  
Vol 10 (10) ◽  
pp. 2134
Author(s):  
Daniel Lysák ◽  
Lenka Hejretová ◽  
Marcela Hrabětová ◽  
Pavel Jindra
Keyword(s):  
Bone Marrow ◽  
Blood Donation ◽  
Autologous Blood ◽  
Hemoglobin Level ◽  
Time Interval ◽  
Minimal Risk ◽  
Preoperative Autologous Blood Donation ◽  
Transfusion Threshold ◽  
Healthy Donors ◽  
Effective Use

Preoperative autologous blood donation (PAD) in bone marrow (BM) donors is performed to meet potential post-harvest transfusion needs and to avoid the risk of allogeneic transfusions. We reviewed retrospectively bone marrow harvests in 216 healthy donors during a ten-year period to determine the use of autologous blood. All donors except four had undergone PAD. The initial hemoglobin level of 153 g/L (male donors) and 135 g/L (female donors), respectively, decreased by about 8 g/L after preoperative blood donation and by 23 g/L after bone marrow harvest (medians). Autologous blood was administered to 70% of donors, 30% of the units remained unused. The evaluation of the risk of reaching transfusion threshold (<115 g/L males, <105 g/L females) revealed that donors with initial hemoglobin above 145 g/L and those weighing above 75 kg have minimal risk of requiring blood substitution (about 10%). A larger volume of bone marrow was obtained from male compared to female donors (1300 vs. 1100 mL) because of their higher body weight, which resulted in a higher number of procured nucleated cells (362 vs. 307 × 106/kg TNC, ns). The donor-recipient weight difference predicted the probability of sufficient collection. Only 1.5% of donors weighing ≥ 20 kg more than recipients failed to reach ≥3 × 108/kg TNC recipient. Our findings affirm previous data that PAD is unnecessary for healthy marrow donors and may be indicated individually after considering the pre-collection hemoglobin level, donor and recipient weight, and expected blood loss. Reasonable substitution cut-offs have to be set together with clinical symptom evaluation. The effective use of PAD also requires an adequate time interval between PAD and BM harvest.

Abstract 3116: The Effect of Stroke on Bone Marrow: Studies from a Cell-Therapy Clinical Trial

Stroke ◽  
2012 ◽  
Vol 43 (suppl_1) ◽  
Author(s):  
Jessica Tanksley ◽  
Farhaan Vahidy ◽  
April Durett ◽  
James C Grotta ◽  
Sean I Savitz
Keyword(s):  
Clinical Trial ◽  
Stem Cells ◽  
Bone Marrow ◽  
Autologous Bone Marrow ◽  
Cell Populations ◽  
Stroke Patients ◽  
Healthy Donors ◽  
Trial Testing ◽  
Autologous Bone ◽  
Cell Subpopulations

Objective: The application of autologous bone marrow cells has emerged as an investigational cell-based therapy for ischemic stroke. Previous animal studies have reported that stroke affects leukocytes in the bone marrow. In addition, older age and presence of comorbidities raise concerns about the variability in yield of bone marrow stem cells. These issues may potentially impact autologous applications of bone marrow cell therapies in stroke patients. We examined whether acute ischemic stroke (AIS) affects the bone marrow in patients by assessing various cell subpopulations within the mononuclear fraction of bone marrow harvested from healthy donors and study patients in our clinical trial testing mononuclear cells (MNCs) in patients with AIS. Methods: This study examined the bone marrow composition of 22 consecutive patients with AIS enrolled into our clinical trial testing the safety of autologous bone marrow MNCs administered intravenously within 24 to 72 hours after symptom onset. After bone marrow harvest, MNCs are isolated, separated, and characterized at a GMP facility. The bone marrow from 15 healthy donors was also processed at the same GMP facility. Descriptive analysis comprised calculation of means for absolute cell counts and determination of proportions for subtypes of different cell subpopulations. Samples of healthy bone marrow donors were compared with that of AIS patients. Results: AIS patients had a median age of 61 (IQR 50-73), had CAD (5%), Afib (14%), diabetes (32%), hypertension (50%), hyperlipidemia (32%), or were actively smoking (27%). Onset time to harvest was 48 ±11 hours after stroke onset. Figure 1 shows no significant differences among the proportions of cell populations including lineage negative, CD34+ cells (a marker of hematopoietic stem cells - HSCs). There was no significant difference in the variance of the cell subpopulations between healthy donors and stroke patients, except for NK cells which were significantly higher among the stroke patients (p = 0.0074). Age, history of DM, or the location of the infarct depending on vascular territory did not affect the proportion of the different cell populations. Conclusions: AIS does not cause significant changes in the proportions of different cell types in the MNCs of bone marrow including the HSCs. We found no evidence that autologous MNCs are different, in terms of cell composition, from study patients who are older and have vascular comorbidities compared with healthy donors.

scholarly journals Anti-CS1 humanized monoclonal antibody HuLuc63 inhibits myeloma cell adhesion and induces antibody-dependent cellular cytotoxicity in the bone marrow milieu

Blood ◽  
2008 ◽  
Vol 112 (4) ◽  
pp. 1329-1337 ◽  
Author(s):  
Yu-Tzu Tai ◽  
Myles Dillon ◽  
Weihua Song ◽  
Merav Leiba ◽  
Xian-Feng Li ◽  
...  
Keyword(s):  
Monoclonal Antibody ◽  
Bone Marrow ◽  
Cell Adhesion ◽  
Tumor Regression ◽  
Myeloma Cell ◽  
Hsp90 Inhibitor ◽  
Cellular Cytotoxicity ◽  
Antibody Dependent Cellular Cytotoxicity ◽  
Healthy Donors ◽  
Human Multiple Myeloma

Abstract Currently, no approved monoclonal antibody (mAb) therapies exist for human multiple myeloma (MM). Here we characterized cell surface CS1 as a novel MM antigen and further investigated the potential therapeutic utility of HuLuc63, a humanized anti-CS1 mAb, for treating human MM. CS1 mRNA and protein was highly expressed in CD138-purified primary tumor cells from the majority of MM patients (more than 97%) with low levels of circulating CS1 detectable in MM patient sera, but not in healthy donors. CS1 was expressed at adhesion-promoting uropod membranes of polarized MM cells, and short interfering RNA (siRNA) targeted to CS1 inhibited MM cell adhesion to bone marrow stromal cells (BMSCs). HuLuc63 inhibited MM cell binding to BMSCs and induced antibody-dependent cellular cytotoxicity (ADCC) against MM cells in dose-dependent and CS1-specific manners. HuLuc63 triggered autologous ADCC against primary MM cells resistant to conventional or novel therapies, including bortezomib and HSP90 inhibitor; and pretreatment with conventional or novel anti-MM drugs markedly enhanced HuLuc63-induced MM cell lysis. Administration of HuLuc63 significantly induces tumor regression in multiple xenograft models of human MM. These results thus define the functional significance of CS1 in MM and provide the preclinical rationale for testing HuLuc63 in clinical trials, either alone or in combination.

Correlation between WT1 Levels and Chimeric Transcripts in Core Binding Factor AML: Discrepancies Are Not Uncommon AML1-ETO Leukemias.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 2309-2309
Author(s):  
Adriana Lasa ◽  
Maite Carricondo ◽  
Daniela Cilloni ◽  
Salut Brunet ◽  
Anna M. Aventin ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Copy Number ◽  
Residual Disease ◽  
Wilms Tumor ◽  
Quantitative Polymerase Chain Reaction ◽  
Core Binding Factor ◽  
Acute Leukemias ◽  
Healthy Donors ◽  
Binding Factor

Abstract The Wilms tumor gene (WT1) was identified as a tumor suppressor gene coding for a zinc-finger transcription factor. It has been demonstrated that WT1 is overexpressed in acute leukemias and detection of increased levels of WT1 transcripts mainly in peripheral blood, has been associated with clonal growth and relapses. Most AML patients do not have a suitable molecular marker for minimal residual disease (MRD) monitoring. WT1 quantification seems to be an attractive strategy of universal leukemia follow-up. Bone marrow samples from 46 core binding factor (CBF) AML patients were tested for WT1 expression in parallel to AMLI/ETO and CBFb/MYH11quantification. Total RNA was purified using the Trizol reagent (Invitrogen). Chimeric detection was performed following the BIOMED recommendations. The WT-1 mRNA expression was measured by real-time quantitative polymerase chain reaction (RQ-PCR) in an ABI7700 genetic analyzer (Applied Biosystems, Foster City). For WT1 copy number titration the IPSOGEN plasmid was employed (Ipsogen, Marseilles). One hundred and fifty bone marrow (BM) samples from AML1-ETO patients (23 samples at diagnosis and 127 during follow-up) and 195 from CBFbeta-MYH11 cases (21 samples at diagnosis and 174 during follow-up) were included in the study. Bone marrow samples from 6 healthy donors were used to establish the highest acceptable value of WT1 copy number (80 copies). The WT1 expression was significantly increased (up to 3 orders) in bone marrow samples of AML patients at diagnosis compared to BM samples of healthy donors (P < 0.0001). Relapses were observed exclusively in the CBFbeta-MYH11 group and were always preceded by rising amounts of WT1 levels. A good concordance between WT1 levels (80 copies) and prognostically relevant chimeric trancript copy number (1 copy) was detected in 96.23% of the samples. Discrepancies between WT1 and specific fusion genes were observed in 11 AML1-ETO samples and in two CBFbeta-MYH11 cases. In ten follow up AML1-ETO samples with copy values of 1 or less a WT1 result exceeding the 80 threshold was detected. This discordant result was found in a single CBFbeta-MYH11 sample. Our findings suggest that WT1 is a reliable MRD marker in CBFbeta-MYH11 AML. It remains to be investigated the meaning of high titers of WT1 in AML1-ETO acute leukemias.

Multiplex Analysis of Serum Cytokine Levels in Waldenström Macroglobulinemia Patients.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 2616-2616
Author(s):  
Sherine F. Elsawa ◽  
Anne J. Novak ◽  
Steven C. Ziesmer ◽  
Thomas E. Witzig ◽  
Vincent Rajkumar ◽  
...  
Keyword(s):  
Bone Marrow ◽  
B Cell ◽  
Elevated Serum ◽  
Fold Increase ◽  
Serum Levels ◽  
Healthy Controls ◽  
Β2 Microglobulin ◽  
Healthy Donors ◽  
Cytokine Levels

Abstract Waldenström macroglobulinemia (WM) is a monoclonal B cell disorder characterized by a circulating monoclonal IgM protein that may lead to serum hyperviscosity in association with an infiltration of lymphoplasmacytic cells into the bone marrow. Although proinflammatory and chemotactic cytokines can profoundly affect tumor cells and the tumor microenvironment, and many cytokines have been shown to have potent therapeutic efficacy in preclinical cancer models, the role of cytokine networks in WM is not fully understood. In this study, we used a high-throughput xMAP multiplex immunobead assay technology (Luminex Corp., Austin, TX) to simultaneously test 30 cytokines, chemokines, angiogenic factors as well as growth factors and soluble receptors in the sera of WM patients and compared them with other B cell malignancies including IgM monoclonal gammopathy of undetermined significance (MGUS), follicular lymphoma, chronic lymphocytic leukemia (CLL) as well as healthy controls. Using a Mann-Whitney U test to analyze the differences between the groups, 15 of the 30 cytokines tested had significantly different levels in WM compared to healthy controls. Of those 15 cytokines, 11 were elevated in WM patients and 4 were decreased. Cytokines were grouped into 3 groups; those with &lt; 2-fold difference, 2–8 fold difference and those having &gt; 8-fold difference in their cytokine levels compared to healthy donors. There was a greater than 8-fold increase in the serum levels of Rantes, G-CSF and IL-2R (p&lt;0.0001) in WM patients. Furthermore, 3 cytokines had between 2–8-fold increase in WM patients including IL-4 (p&lt;0.0001), IL-6 (p&lt;0.0019) and IP-10 (p&lt;0.0006). Five cytokines had statistically elevated levels in WM patients compared to healthy controls, however the fold increase was &lt; 2 including HGF (p&lt;0.0185), IL-10 (p&lt;0.0002), MIP-1α (P&lt;0.0484), IL-2 (P&lt;0.0130) and IL-12 (P&lt;0.0155). Of the cytokines that had significantly lower levels in the sera of WM patients, IL-8 (p&lt;0.0001) and EGF (p&lt;0.0001) were &gt; 8-fold decreased, MCP-1 (p&lt;0.0001) was 2–8 fold lower and Eotaxin (p&lt;0.0004) was &lt; 2-fold lower in WM patients. All of the cytokines that had the greatest fold difference (&gt; 8-fold) in WM patients compared to healthy donors also differed significantly from the MGUS patients. Rantes, G-CSF, IL-2R and EGF had significantly different levels compared to other B cell malignancies. We tested for a correlation between the cytokines that had &gt; 2-fold difference between the WM group and control group with clinical features of the disease and found the cytokines IL-6 and IL-2R had a significant correlation with β2-microglobulin levels (p&lt;0.01). We analyzed cytokine levels in the bone marrow plasma of the same patients and found that high levels of IL-2R in the bone marrow microenvironment significantly correlated with anemia and elevated serum β2-microglobulin (p&lt;0.01). In conclusion, we have simultaneously analyzed sera from WM patients for 30 cytokines and found the most significantly elevated cytokines are Rantes, G-CSF and IL-2R and the most significantly downregulated cytokines are IL-8 and EGF. Furthermore, we found that elevated serum levels of IL-6 and IL-2R correlated with β2-microglobulin levels, a measure of disease activity. Further analysis of the biological role of these cytokines in WM may offer insight into disease pathogenesis and provide a basis for novel targeted therapies.

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