Modulation of Staphylococcus aureus gene expression during proliferation in platelet concentrates with focus on virulence and platelet functionality.

Staphylococcus aureus is a well-documented bacterial contaminant in platelet concentrates (PCs), a blood component used to treat patients with platelet deficiencies. This bacterium can evade routine PC culture screening and cause septic transfusion reactions. Here, we investigated the gene expression modulation within the PC niche versus trypticase soy media (TSB) of S. aureus CBS2016-05, a strain isolated from a septic reaction, in comparison to PS/BAC/317/16/W, a strain identified during PC screening. RNA-seq analysis revealed upregulation of the capsule biosynthesis operon (capA-H), surface adhesion factors (sasADF), clumping factor A (clfA), protein A (spa), and anaerobic metabolism genes (pflAB, nrdDG) in CBS2016-05 when grown in PCs versus TSB, implying its enhanced pathogenicity in this milieu, in contrast to the PS/BAC/317/16/W strain. Furthermore, we investigated the impact of S. aureus CBS2016-05 on platelet functionality in spiked PCs versus non-spiked PC units. Flow cytometry analyses revealed a significant decrease in glycoprotein (GP) IIb (CD41) and GPIbα (CD42b) expression, alongside increased P-selectin (CD62P) and phosphatidylserine (annexin V) expression in spiked PCs compared to non-spiked PCs (p = 0.01). Moreover, spiked PCs exhibited a drastic reduction in MitoTrack Red FM and Calcein AM positive platelets (87.3% vs. 29.4%, p = 0.0001 and 95.4% vs. 24.7%, p = 0.0001) in a bacterial cell density manner. These results indicated that S. aureus CBS2016-05 triggers platelet activation and apoptosis, and compromises mitochondrial functionality and platelet viability, in contaminated PCs. Furthermore, this study enhanced our understanding of the effects of platelet-bacteria interactions in the unique PC niche, highlighting S. aureus increased pathogenicity and deleterious effect on platelet functionality in a strain specific manner. Our novel insights serve as a platform to improve PC transfusion safety.

AA2P-mediated DNA demethylation synergizes with stem cell agonists to promote expansion of hematopoietic stem cells.

Small molecules have enabled expansion of hematopoietic stem and progenitor cells (HSPCs), but limited knowledge is available on whether these agonists can act synergistically. In this work, we identify a stem cell agonist in AA2P and optimize a series of stem cell agonist cocktails (SCACs) to help promote robust expansion of human HSPCs. We find that SCACs provide strong growth-promoting activities while promoting retention and function of immature HSPC. We show that AA2P-mediated HSPC expansion is driven through DNA demethylation leading to enhanced expression of AXL and GAS6. Further, we demonstrate that GAS6 enhances the serial engraftment activity of HSPCs and show that the GAS6/AXL pathway is critical for robust HSPC expansion.

Severe fetal anemia caused by anti-Jra : Burst forming unit-erythroid colony formation inhibition assay suggesting possible erythroid suppression mechanism.

BACKGROUND: The Jr blood group system includes a single, high-prevalence antigen, Jra , encoded by the ABCG2 gene. The impact of anti-Jra in pregnancy is variable, ranging from no clinical effect to severe anemia including some fetal deaths. Case reports have postulated that anti-Jra mediated fetal anemia is poorly hemolytic, suggesting other mechanisms of anemia may be involved. STUDY DESIGN AND METHODS: We describe the case of severe anti-Jra mediated fetal anemia. At Canadian Blood Services laboratories, maternal anti-Jra was tested for phagocytic activity via a monocyte monolayer assay (MMA) and erythroid suppression via inhibition of burst forming unit-erythroid (BFU-E) colony formation assays. The New York Blood Center sequenced exons 4 and 7 of the ABCG2 gene. RESULTS AND DISCUSSION: Sequencing of exons 4 and 7 of the ABCG2 gene revealed maternal compound heterozygosity for two nonsense mutations at exon 7 (c.706 C > T and c.784G > T). Fetal sequencing revealed the c.706C > T polymorphism. The MMA showed a borderline phagocytic index (around the cutoff of five for both donor segments tested [5 ± 1 and 7 ± 3]). The BFU-E colony formation inhibition assay suggested a dose-dependent inhibition of BFU-E colony formation with inhibition percentages of 4%, 11%, and 43% at maternal serum concentrations of 2%, 5%, and 10%, respectively. Our findings support the hypothesis that anti-Jra may impair erythropoiesis leading to clinically significant fetal/neonatal anemia. A referral to maternal fetal medicine is recommended if anti-Jra is detected in pregnancy, regardless of the titer.

Clinical Outcomes of Umbilical Cord Blood Transplantation Using Ex Vivo Expansion: A Systematic Review and Meta-Analysis of Controlled Studies.

Greater use of umbilical cord blood (UCB) for hematopoietic cell transplantation (HCT) is limited by the number of cells in banked units. Ex vivo culture strategies have been increasingly evaluated in controlled studies, but their impact on transplantation-related outcomes remains uncertain owing to the small patient numbers in these studies, necessitating an updated systematic review and meta-analysis. A systematic literature search was conducted using the MEDLINE, Embase, and Cochrane databases to March 18, 2022. Nine cohort-controlled phase I to III trials were identified, and data of 1146 patients undergoing umbilical cord blood transplantation (UCBT) were analyzed (308 ex vivo expanded and 838 unmanipulated controls). Expansion strategies involved cytokine cocktails plus the addition of small molecules (UM171, nicotinamide [NiCord], copper chelation, Notch ligand, or Stem regenin-1 [SR-1]) and coculture with mesenchymal stromal cells in a single-unit transplant strategy (5 studies) or a double-unit transplant strategy with 1 unmanipulated unit (4 studies). The included trials reported a median ex vivo expansion of CD34+ cells from 28-fold to 330-fold. Eight of the 9 studies demonstrated a significantly faster time to initial neutrophil and platelet engraftment using expanded cells compared with controls. Studies using UM171 and NiCord in single-unit UCBT and SR-1 or NiCord double-unit UCBT demonstrated long-term donor chimerism of the expanded unit at 100 days to 36 months post-transplantation in all single-unit recipients and in 35% to 78% of double-unit recipients. Our meta-analysis revealed a lower risk of death at the study endpoint in patients who received ex vivo expanded grafts (odds ratio [OR], .66; 95% confidence interval [CI], .47 to .95; P = .02), while the risk of grade II-IV acute graft-versus-host disease was unchanged (OR, .79; 95% CI, .58 to 1.08; P = .14). This review indicates that UCBT following ex vivo expansion can accelerate initial engraftment. Durable donor chimerism can be achieved after transplanting cord blood units expanded using NiCord, UM171, or SR-1; however, long term outcomes remain unclear. Larger studies with longer-term outcomes are needed to better understand the merits of specific expansion strategies on survival.

Contamination of platelet concentrates with Staphylococcus aureus induces significant modulations in platelet functionality.

BACKGROUND AND OBJECTIVES: Platelet concentrates (PCs) contaminated with Staphylococcus aureus can escape detection during PC screening, causing septic transfusion reactions. This study aimed to determine the impact of S. aureus contamination on platelet metabolism and functionality during PC storage. MATERIALS AND METHODS: Targeted metabolomics (N = 3) was performed on non-spiked PCs and PCs inoculated with 10-20 colony-forming units (CFU)/bag of S. aureus. Metabolites were quantified at 0, 48 and 144 h using high-performance mass spectrometry (MS). Additionally, PCs spiked with approximately 20 CFU/bag of S. aureus were sampled every 24 h for up to 144 h to evaluate platelet functionality using flow cytometry (N = 2). RESULTS: Eight metabolites had significantly different levels in spiked PCs (log2 fold-change ≤ or ≥±1) versus non-spiked units at 48 and 144 h. Xanthine, uridine, serine, glutamine and threonine were increased, whereas orotic acid, dihydroorotic acid and aspartic acid were decreased. Flow cytometry showed a significant decrease in expression of GPIIb while P-selectin expression was significantly increased in spiked PCs after 72 h of storage when S. aureus concentration was ≥10E+08 CFU/ml. Additionally, phosphatidylserine exposure was significantly increased after 48 h of PC storage, when S. aureus had reached a concentration of 2E+06. CONCLUSION: Contamination with S. aureus exacerbates platelet storage lesions in contaminated PCs but only when the bacterium has reached clinically significant levels.

Automated closed volume reduction process for apheresis stem cell grafts: From development to clinical implementation.

BACKGROUND: Collection of HPC by apheresis (HPC-A) can sometimes result in higher collection volumes, increasing the dimethyl sulfoxide (DMSO) volume infused into patients and the space requirements in liquid nitrogen freezers. Volume reduction prior to the addition of cryoprotectant is an efficient means to reduce the DMSO load infused into patients and to optimize freezer storage space. STUDY DESIGN AND METHODS: To implement a closed semi-automated volume reduction process, a method was developed to produce leukocyte-rich mock apheresis products using buffy coats derived from whole blood collections. The mock HPC products were then used to measure the efficiency and reliability of the semi-automated process over a range of volumes and cell concentrations. The resulting data was used to support the implementation of the process with concurrent monitoring. RESULTS: A closed, semi-automated volume reduction process resulted in recoveries of over 93% and 91% of white blood cells and CD34+ cells with no significant loss of product viability or potency. Mean doses of CD34+ and CFU infused per kilogram recipient body weight were 4.0 ± 1.1 × 106 /kg and 4.2 ± 1.7 × 105 /kg, resulting in no delays in median time to neutrophil and platelet engraftment, significant increase in adverse reaction or nonconformances. DISCUSSION: The effectiveness outcomes of the first Canadian experience in the implementation of a closed semi-automated volume reduction system in the processing of HPC-A products for autologous transplant have met the predetermined acceptance criteria, supporting its use in a stem cell manufacturing laboratory compliant with good manufacturing practice regulations.

Multicenter evaluation of the IL-3-pSTAT5 assay to assess the potency of cryopreserved stem cells from cord blood units: The BEST Collaborative study.

BACKGROUND: The IL-3-pSTAT5 assay, a new, rapid, and standardized flow-cytometry-based assay may compensate for several limitations of the colony-forming unit (CFU) assay typically used for stem cell potency assessments of cord blood units (CBU). We performed an inter-laboratory evaluation of the performance of this new assay. STUDY DESIGN AND METHODS: This Biomedical Excellence for Safer Transfusion (BEST) Collaborative multicenter, international study included 15 participants from public cord blood banks (CBBs), CBB-supporting research laboratories, and stem cell laboratories. To perform the IL-3-pSTAT5 assay, participating centers received reagents, instructions, and 10 blind CBU samples, including eight normal samples and two samples exposed to a transient warming event. We measured inter-laboratory agreement qualitatively (proportion of correctly classified samples) and quantitatively (coefficient of variation [CV], correlation coefficients, receiver operating characteristics (ROC) curve, and intraclass correlation coefficient [ICC]). RESULTS: The qualitative agreement was 97.3% (i.e., 107/110; Fleiss' kappa = 0.835). The average CV on a per-sample basis was 11.57% among all samples, 8.99% among normal samples, and on a per-center basis was 9.42% among normal samples. In a correlation matrix that compared results across centers, the mean Pearson's correlation coefficient was 0.88 (standard deviation = 0.04). The ICC was 0.83 (95% confidence interval = 0.68-0.95). The area under the curve (AUC) from the ROC curve was 0.9974. DISCUSSION: Excellent qualitative and quantitative agreement was exhibited across laboratories. The IL-3-pSTAT5 assay may therefore be implemented in flow cytometry laboratories to rapidly and reliably provide standardized measures of stem cell potency in CBUs.

Rapid potency assessment of autologous peripheral blood stem cells by intracellular flow cytometry: the PBSC-IL-3-pSTAT5 assay.

BACKGROUND AIMS: The current gold standard for stem cell product potency assessment, the colony-forming unit (CFU) assay, delivers results that are difficult to standardize and requires a substantial amount of time (up to 14 days) for cellular growth. Recently, the authors developed a rapid (<24 h) flow cytometry assay based on the measurement of intracellular phosphorylated STAT5 (pSTAT5) in CD34+ cord blood stem and progenitor cells in response to IL-3 stimulation. The present work presents a novel adaptation of the protocol for use with autologous peripheral blood stem cells (PBSCs) and a performance comparison with the CFU assay. METHODS: The flow cytometry intracellular staining assay was optimized for PBSCs, and patient samples were analyzed using the PBSC-IL-3-pSTAT5 and CFU assays. Warming events were also simulated to emulate impaired potency products. RESULTS: Optimization led to minor protocol adjustments, such as removal of the red blood cell lysis step, the addition of a formaldehyde fixation step and an increase in anticoagulant concentration. The PBSC-IL-3-pSTAT5 assay discriminated between normal and impaired samples and identified 100% (18 of 18) of the impaired samples, thus showing better specificity than the CFU assay. CONCLUSIONS: The updated IL-3-pSTAT5 potency assay has several important advantages, such as accelerating the release of autologous stem cell products and enabling the detection of potentially impaired products. The assay could also be used to rapidly assess the potency of any cryopreserved allogeneic stem cell product, such as those processed during the coronavirus disease 2019 pandemic.

Use of CRISPR/Cas9 gene editing to improve chimeric antigen-receptor T cell therapy: A systematic review and meta-analysis of preclinical studies.

BACKGROUND: Chimeric antigen-receptor T (CAR-T) cells represent great promise in cancer treatment. CRISPR/Cas9 gene editing in preclinical studies has enabled the development of enhanced CAR-T products with improved function and reduced toxicity. METHODS: A systematic review of preclinical animal studies was conducted to determine the efficacy and safety of this approach. RESULTS: 3753 records were identified (to September 9, 2020), with 11 studies using CRISPR/Cas9 gene editing in combination with CAR-T therapy against human cells in animal models of acute leukemia (four studies), glioma (two studies), melanoma (two studies), and other cancers (three studies). Compared with unedited controls, gene-edited CAR-T cells reduced tumor volume in treated animals and improved survival. No adverse side effects were reported. Use of allogeneic "third-party" CAR-T cells appears feasible. Improved efficacy was achieved through both knock-in and knockout gene editing of various targets implicated in immune function. Targeting multiple genes also appears feasible. Significant heterogeneity in study design and outcome reporting was observed, and potential bias was identified in all studies. CONCLUSION: CRISPR/Cas9 gene editing enables manufacturing of CAR-T cells with improved anti-cancer effects. Future studies should reduce unintentional bias and heterogeneity of study designs and strive to augment long-term persistence of edited cells. PROTOCOL REGISTRATION: PROSPERO; registration number CRD42020220313 registered November 30, 2020.

Dimethyl sulfoxide-free cryopreservation solutions for hematopoietic stem cell grafts.

BACKGROUND AIMS: The use of effective methods for the cryopreservation of hematopoietic stem cells (HSCs) is vital to retain the maximum engraftment activity of cord blood units (CBUs). Current protocols entail the use of dimethyl sulfoxide (DMSO) as intracellular cryoprotective agent (CPA) and dextran and plasma proteins as extracellular CPAs, but DMSO is known to be cytotoxic, and its infusion in patients is associated with mild to moderate side effects. However, new, commercially available, DMSO-free cryopreservation solutions have been developed, but their capacity to protect HSCs remains poorly investigated. METHODS: Herein the authors compared the capacity of four DMSO-free freezing media to cryopreserve cord blood (CB) HSCs: CryoProtectPureSTEM (CPP-STEM), CryoScarless (CSL), CryoNovo P24 (CN) and Pentaisomaltose (PIM). Clinical-grade DMSO/dextran solution was used as control. RESULTS: Of the four cryopreservation solutions tested, the best post-thaw cell viability, recovery of viable CD45+ and CD34+ cells and potency were achieved with CPP-STEM, which was equal or superior to that seen with the control DMSO. CSL provided the second best post-thaw results followed by PIM, whereas CN was associated with modest viability and potency. Further work with CPP-STEM revealed that CB CD34-enriched HSCs and progenitors cryopreserved with CPP-STEM maintained high viability and growth expansion activity. In line with this, a pilot transplantation assay confirmed that CPP-STEM-protected CB grafts supported normal short- and long-term engraftment kinetics. CONCLUSIONS: The authors' results suggest that new, valuable alternatives to DMSO are now available for the cryopreservation of HSCs and grafts, including CBUs.

Persistence of CRISPR/Cas9 gene edited hematopoietic stem cells following transplantation: A systematic review and meta-analysis of preclinical studies.

Gene editing blood-derived cells is an attractive approach to cure selected monogenic diseases but remains experimental. A systematic search of preclinical controlled studies is needed to determine the persistence of edited cells following reinfusion. All studies identified in our systematic search (to 20 October 2020) examining the use of CRISPR/Cas9 gene editing in blood-derived cells for transplantation were included. Meta-analysis was performed to determine the engraftment and persistence of gene edited cells. A total of 3538 preclinical studies were identified with 15 published articles meeting eligibility for meta-analysis. These in vivo animal studies examined editing of hemoglobin to correct sickle cell disease (eight studies), inducing resistance to acquired immunodeficiency syndrome (two studies), and six other monogenic disorders (single studies). CRISPR-Cas9 edited hematopoietic stem and progenitor cells demonstrated equivalent early engraftment compared to controls in meta-analysis but persistence of gene-edited cells was reduced at later time points and in secondary transplant recipients. Subgroup analysis in studies targeting the hemoglobin gene revealed a significant reduction in the persistence of gene-edited cells whether homology-directed repair or nonhomologous end-joining were used. No adverse side effects were reported. Significant heterogeneity in study design and outcome reporting was observed and the potential for bias was identified in all studies. CRISPR-Cas9 gene edited cells engraft similarly to unedited hematopoietic cells. Persistence of gene edited cells, however, remains a challenge and improved methods of targeting hematopoietic stem cells are needed. Reducing heterogeneity and potential risk of bias will hasten the development of informative clinical trials.

Current and Future Perspectives for the Cryopreservation of Cord Blood Stem Cells.

Hematopoietic stem cell (HSC) transplantation is a well-established procedure for the treatment of many blood related malignancies and disorders. Before transplantation, HSC are collected and cryopreserved until use. The method of cryopreservation should preserve both the number and function of HSC and downstream progenitors responsible for long- and short-term engraftment, respectively. This is especially critical for cord blood grafts, since the cell number associated with this stem cell source is often limiting. Loss of function in cryopreserved cells occurs following cryoinjuries due to osmotic shock, dehydration, solution effects and mechanical damage from ice recrystallization during freezing and thawing. However, cryoinjuries can be reduced by 2 mitigation strategies; the use of cryoprotectants (CPAs) and use of control rate cooling. Currently, slow cooling is the most common method used for the cryopreservation of HSC graft. Moreover, dimethyl-sulfoxide (DMSO) and dextran are popular intracellular and extracellular CPAs used for HSC grafts, respectively. Yet, DMSO is toxic to cells and can cause significant side effects in stem cells' recipients. However, new CPAs and strategies are emerging that may soon replace DMSO. The aim of this review is to summarise key concepts in cryobiology and recent advances in the field of HSC cryobiology. Other important issues that need to be considered are also discussed such as transient warming events and thawing of HSC grafts.

Insights into the Hematopoietic Regulatory Activities of Osteoblast by Secretomics.

Osteoblasts are a key component of the endosteal hematopoietic stem cell (HSC) niche and are recognized with strong hematopoietic supporting activity. Similarly, mesenchymal stromal cells (MSC)-derived osteoblast (M-OST) conditioned media (OCM) enhances the growth of hematopoietic progenitors in culture and modulate their engraftment activity. We aimed to characterize the hematopoietic supporting activity of OCM by comparing the secretome of M-OST to that of their precursor. Over 300 proteins were quantified by mass spectroscopy in media conditioned with MSC or M-OST, with 47 being differentially expressed. Included were growth factors, extracellular matrix (ECM) proteins and proteins from the complement pathways. The functional contribution of selected proteins on the growth and differentiation of cord blood (CB) progenitors was tested. Secreted Protein Acidic and Rich in Cysteine (SPARC) and Galectin 3 (Gal3) had little impact on the growth of CB cells in serum-free medium (SFM). In contrast, inhibition of the complement 3 A receptor (C3a-R) present on CB progenitors significantly reduced the growth of CD34+ cells in OCM cultures but not in SFM. These results provide new insights into changes in factors released by MSC undergoing osteoblast differentiation, and on paracrine factors that are partially responsible for the hematopoietic supporting activity of osteoblasts. This article is protected by copyright. All rights reserved.

Transient warming affects potency of cryopreserved cord blood units.

BACKGROUND AIMS: Cryopreserved cord blood units (CBUs) can be exposed to transient warming events (TWEs) during routine banking operations, which may affect their potency. NetCord-FACT guidelines recommend removal of these CBUs from inventory. The objective of this work was to evaluate warming kinetics of frozen CBUs in different settings to determine the optimal working environment and define the impact of different TWE scenarios on CB post-thaw quality and potency. METHODS: The warming kinetics of frozen CBUs was influenced by both working surfaces and ambient working temperature, with cold plates providing better protection than vinyl or metal surfaces. Measurement of time for required operational activities revealed that CBUs are probably exposed to core temperatures greater than -150°C even when cold plates are used to reduce warming rates. RESULTS: On the basis of the warming kinetics and observed operational activities, three TWE causing scenarios (control, typical, worst case) were investigated using a pool-and-split design and cell viability, recovery and potency (colony-forming unit [CFU]) assays were performed. TWEs were found to have little impact on the recovery of total nucleated cells or on the viability of CD34+ cells. In contrast, the viability and recovery of CD45+ cells in the smaller CBU compartments were reduced by TWEs. Moreover, the worst-case TWE reduced CFU recovery from CBUs, whereas the typical-scenario TWE had little effect. CONCLUSIONS: Our results demonstrate that the distal segment underestimates the viability and potency of CBUs and that TWEs can affect the post-thaw viability and potency of CBUs. Although TWEs are almost inevitable during cord-blood banking operations, their effects must be diminished by reducing exposure time, using cold plates and strict operational protocols, to prevent worst-case TWEs.

Inhibition of ice recrystallization during cryopreservation of cord blood grafts improves platelet engraftment.

BACKGROUND: Platelet engraftment following cord blood (CB) transplantation remains a significant hurdle to this day. The uncontrolled growth of ice, a process referred to as ice recrystallization, is one of several mechanisms that lead to cell loss and decreased potency during freezing and thawing. We hypothesized that reducing cell damage induced by ice recrystallization in CB units (CBUs) would reduce losses of stem and progenitor cells and therefore improve engraftment. We previously demonstrated that the ice recrystallization inhibitor (IRI) N-(2-fluorophenyl)-D-gluconamide (IRI 2) increases the postthaw recovery of CB progenitors. Herein, we set out to ascertain whether IRI 2 can enhance platelet and bone marrow engraftment activity of hematopoietic stem cells (HSCs) in cryopreserved CBUs using a serial transplantation model. STUDY DESIGN AND METHODS: CBUs were processed following standard volume/red blood cell reduction procedure and portions frozen with dimethyl sulfoxide (DMSO) supplemented or not with IRI 2. Thawed CB samples were serially transplanted into immunodeficient mice. RESULTS: Our results show that supplementation of DMSO with IRI 2 had several beneficial effects. Specifically, higher levels of human platelets were observed in the peripheral blood (p < 0.05; n = 4) upon transplant of CBUs preserved with the IRIs. In addition, human BM chimerism and the number of human CFU progenitors in the bone marrow were superior in IRI 2 recipients compared to DMSO recipients. Moreover, IRI 2 had no negative impact on the multilineage differentiation and self-renewal activities of HSCs. DISCUSSION: Taken together, these results demonstrate that supplementation of a hematopoietic graft with IRI can improve the postthaw engraftment activities of HSCs.

Multi-laboratory assay for harmonization of enumeration of viable CD34+ and CD45+ cells in frozen cord blood units.

BACKGROUND AIMS: In 2016, specifications for both pre-cryopreserved and post-thawed cord blood were defined in the sixth edition of NetCord Foundation for the Accreditation of Cellular Therapy (FACT) Standards for Cord Blood Banks. However, for several experts, harmonization regarding flow cytometry analysis performed on post-thawed samples is still a concern. A multicenter study led by Héma-Québec aimed to provide scientific data to support the cord blood accreditation bodies such as NetCord FACT in the revision of standards. METHODS: Twelve cord blood units were processed for plasma and red cell reduction following standard operating procedures. Cord blood unit aliquots were shipped to eight participating centers under cryogenic conditions for analysis before and after standardization of protocol. Repeatability of stem cell count, measured pre- and post-intervention with the centers, was estimated using multilevel linear regression models with a heterogeneous compound symmetry correlation structure among repeated measures. RESULTS: Excellent inter-center repeatability was reported by each participant regarding the viable CD34+ cells concentration, and a successful improvement effect of protocol standardization was also observed. However, we observed that better control over the critical parameters of the protocol did not have a significant effect on improving homogeneity in the enumeration of CD45+ cells. CONCLUSIONS: The current practice in cord blood selection should now also consider relying on post-thaw CD34+ concentration, providing that all cord blood banks or outsourcing laboratories in charge of the analysis of post-thaw CB samples take into account the consensual recommendations provided in this work and adhere to a good-quality management system.

Overcoming the deceptively low viability of CD45+ cells in thawed cord blood unit segments.

BACKGROUND AND OBJECTIVES: There is no standard methodology for post-thaw sample preparation for viability analysis of umbilical cord blood units (CBU). A common challenge faced by CB bank is for their product to meet the post-thaw cell viability threshold for CD45+ cells set at 40% by NetCord-FACT. The objective of this work was to improve the post-thaw staining method to maximize CD45+ cell viability so that clinically valuable samples meet the NetCord-FACT threshold criteria for CD45+ and CD34+ cell viabilities. MATERIALS AND METHODS: Samples of CBU buffy coats and CBU segments were thawed and taken for staining. Various parameters were evaluated on CD45+ and CD34+ cell viability as measured by 7-actinomycin D (7-AAD) staining. RESULTS: The results revealed that initiating the staining at 20 min post-thaw instead of 30, shortening the red cell lysis treatment, or performing lysis on ice and removing this step all together, all improved the viability of CD45+ cells. Using CBU segments, it was shown that the most effective approach in increasing the viability of CD45+ cells was the complete omission of red cell lysis step. However, removal of the lysis step can create technical artefacts during flow cytometry acquisition that results in an underestimation of the viability of CD34+ cells. This can be avoided and CD34+ cell viability restored with additional thresholding on CD45 signal. CONCLUSION: CB CD45+ cells are sensitive to red cell lysis treatment post-thaw; omission of this step provides the best viability and ultimately better reflects the quality of cells used for transplantation.

Paracrine Factors Released by Osteoblasts Provide Strong Platelet Engraftment Properties.

Ex vivo expansion of hematopoietic stem cell (HSCs) and progenitors may one day overcome the slow platelet engraftment kinetics associated with umbilical cord blood transplantation. Serum-free medium conditioned with osteoblasts (i.e., osteoblast-conditioned medium [OCM]) derived from mesenchymal stromal cells (MSC) was previously shown to increase cell growth and raise the levels of human platelets in mice transplanted with OCM-expanded progenitors. Herein, we characterized the cellular and molecular mechanisms responsible for these osteoblast-derived properties. Limiting dilution transplantation assays revealed that osteoblasts secrete soluble factors that synergize with exogenously added cytokines to promote the production of progenitors with short-term platelet engraftment activities, and to a lesser extent with long-term platelet engraftment activities. OCM also modulated the expression repertoire of cell-surface receptors implicated in the trafficking of HSC and progenitors to the bone marrow. Furthermore, OCM contains growth factors with prosurvival and proliferation activities that synergized with stem cell factor. Insulin-like growth factor (IGF)-2 was found to be present at higher levels in OCM than in control medium conditioned with MSC. Inhibition of the IGF-1 receptor, which conveys IGF-2' intracellular signaling, largely abolished the growth-promoting activity of OCM on immature CD34+ subsets and progenitors in OCM cultures. Finally, IGF-1R effects appear to be mediated in part by the coactivator ß-catenin. In summary, these results provide new insights into the paracrine regulatory activities of osteoblasts on HSC, and how these can be used to modulate the engraftment properties of human HSC and progenitors expanded in culture. Stem Cells 2019;37:345-356.

Human Bone Marrow Mesenchymal Stromal Cell-Derived Osteoblasts Promote the Expansion of Hematopoietic Progenitors Through Beta-Catenin and Notch Signaling Pathways.

Coculture of hematopoietic stem cells (HSC) with primary stromal cells from HSC niches supports the maintenance and expansion of HSC and progenitors ex vivo. However, a major drawback is the availability of primary human samples for research and clinical applications. We investigated the use of in vitro derived osteoblasts as a new source of feeder cells and characterized the molecular pathways that mediate their growth-promoting activities. First, we compared the growth and differentiation modulating activities of mesenchymal stromal cells (MSC)-derived osteoblasts (M-OST) with those of their undifferentiated precursor on umbilical cord blood (UCB) progenitors. Feeder-free cultures were also included as baseline control. Cell growth and expansion of hematopoietic progenitors were significantly enhanced by both feeder cell types. However, progenitor cell growth was considerably greater with M-OST. Coculture also promoted the maintenance of immature CD34+ progenitor subsets and modulated in a positive fashion the expression of several homing-related cell surface receptors, in a feeder-specific fashion. Serial transplantation experiments revealed that M-OST coculture supported the maintenance of long-term lympho-myeloid reconstituting HSC that provided engraftment levels that were generally superior to those from MSC cocultures. Mechanistically, we found that coculture with M-OST was associated with enhanced beta-catenin (ß-Cat) activity in UCB cells and that abrogation of ß-Cat/T-cell factor activity blunted the growth-promoting activity of the M-OST coculture. Conversely, Notch inhibition reduced UCB cell expansion, but to a much lesser extent. In conclusion, this study demonstrates that M-OST are excellent feeder cells for HSC and progenitors, and it identifies key molecular pathways that are responsible for the growth-enhancing activities of osteoblasts on UCB progenitors.

Development and testing of a stepwise thaw and dilute protocol for cryopreserved umbilical cord blood units.

BACKGROUND: It is clinically important to maintain high viability and potency of umbilical cord blood units (CBUs) for transplantation during thawing. In the absence of a standard thawing protocol, this study was designed to develop one based on the consensus practice of transplant centers and address the shortage of dextran 40 thawing solution. STUDY DESIGN AND METHODS: Frozen CBU aliquots were thawed using dextran 40 thawing solution while manipulating temperature and volume of diluent and mode of dilution. The effects of these on CD45+ and CD34+ cell viability were measured through annexin V and SYTOX green staining. The developed protocol was then used to compare dextran 40 and PLASMA-LYTE A thawing solutions and finally tested on whole CBUs. RESULTS: Step-by-step investigations resulted in the development of a protocol that thaws and dilutes CBUs with room temperature diluent to five times the original volume using two sequential dilutions separated by equilibration times. PLASMA-LYTE A diluent provided superior viability of CD45+ and CD34+ cells than dextran 40 and recovered more colony-forming units. However, both diluents were equally effective in maintaining stability of the thawed CBU for 4 hours. Moreover, the stem cell-enriched CD34+CD38- subpopulations appeared more resistant to cryoinjuries than their CD34+CD38+ counterpart. CONCLUSION: The developed thawing protocol recovers viable CD45+ and CD34+ cells above the standard thresholds and maintains CBU potency. PLASMA-LYTE A for thawing solution proved to be an efficient alternative to dextran 40. Finally, greater dilution should be avoided to maintain the viability of CD45+ cells and maximize graft cell dose.