A practical approach for gmp-compliant validation of real-time PCR method for mycoplasma detection in human mesenchymal stromal cells as advanced therapy medicinal product.

BACKGROUND: Manufacturing of human Mesenchymal Stromal Cells as advanced therapy medicinal product (ATMP) for clinical use involves an ex vivo expansion, which leads to a risk of contamination by microbiological agents. Even if manufacturing under Good Manufacturing Practice (GMP) license minimizes this risk, contamination of cell cultures by mycoplasmas still represents a widespread problem. Furthermore, the absence of mycoplasma contamination represents one of ATMPs release criteria. Since July 2007, European Pharmacopoeia (EuPh) offers the possibility to replace official mycoplasma detection methods with Nucleic Acid Amplification techniques, after suitable validation. As an Italian authorized Cell Factory, we developed an in-house GMP-compliant validation of real-time PCR method for mycoplasma detection in human Mesenchymal Stromal Cells, according to EuPh sec. 2.6.7 and International Conference on Harmonization Q2. MATERIALS AND METHODS: The study was performed in compliance with GMP international requirements with MycoSEQ™ Mycoplasma Detection Assay (Thermofisher) on QuantStudio5 real-Time PCR (Applied Biosystems). Assay validation was developed to evaluate sensitivity, interferences matrix-related, specificity and robustness. RESULTS: MycoSEQ™ Mycoplasma Detection Assay has been successfully validated on human Mesenchymal Stromal Cells as results comply with validation protocol acceptance criteria. CONCLUSIONS: MycoSEQ™ Mycoplasma Detection Assay is a fast, sensitive and specific PCR-based Nucleic Acid Test assay that can be used as an alternative to official mycoplasma test methods for lot release of human Mesenchymal Stromal Cells as advanced therapy medicinal product (ATMP). Moreover, our study underlines the presence of interference on real-time PCR reaction due to matrix composition, pointing out a practical approach for method validation (i.e interference removal).

Extracorporeal photopheresis as an immunomodulatory agent: Haematocrit-dependent effects on natural killer cells.

The GvHD is a major cause of morbidity and mortality after allogeneic hematopoietic stem cell transplantation (HSCT). Extracorporeal photopheresis (ECP) represents an alternative therapeutic strategy to immunosuppressive therapy. Although ECP is used since 1990s, the mechanism of action has not yet been completely clarified. We analyzed cells collected from 20 ECP procedures of 4 patients affected by chronic GvHD and, for comparison, Peripheral Blood Mononuclear Cells (PBMCs) of 10 healthy donors undergoing from same type of photochemiotherapy, evaluating by flow cytometry, the effects before and after photoactivation with 8-MOP. The analysis showed a significant increase in cell death after ECP in particular in CD4 T lymphocytes as described in literature correlated with haematocrit value. Most interesting data emerge from the analysis of cytotoxic activity of NK cells, using flow cytometry analysis of surface expression of CD107a in the presence of target cells (K562). In all analyzed samples it was possible to document a statistically significant reduction of the cytotoxic activity of NK cells after photoactivation. The decrease of the cytotoxic activity was related to hematocrit value of leukoapheresis: in fact, lower HCT values were associated with a more marked reduction of cytotoxic activity. The study confirms literature data about the increase of cellular mortality induce by ECP. Furthermore, for the first time it is demonstrated that the ECP exerts a marked and significant inhibitory effect on the cytotoxic activity of NK cells. Our study suggests that lower values of hematocrit are associated with better treatment outcome.

Leukapheresis for autologous stem cell transplantation: Comparative study of two different thawing methods WSCFD(®) Stem Cell Fast Thawer KW versus 37 °C thermostatic bath.

BACKGROUND: Leukapheresis for autologous stem cell transplantation represents an efficient technique for the reconstitution of haematopoietic system in patients subjected to a high-dose chemotherapy for the treatment of haematological malignancies. The current regulations emphasise first steps of leukapheresis procedure but do not recommend methods for thawing, only suggesting that it must be performed as soon as possible in a 37 °C thermostatic bath. AIM OF THE STUDY: We compared the classic method of thawing with an innovative and fully traceable method that uses WSCFD(®) Stem Cell Fast Thawer KW. MATERIALS AND METHODS: The first part of the study was focused on the thermodynamic process of the two methods, thawing 6 "simulated" leukapheresis (buffy coats of healthy donors cryopreserved with saline solution, 5% HSA and 5% DMSO) and analysing the thawing curve obtained, by using an inside probe. In the second part, we focused on the recovery of viable CD34+ cells and leukocytes, thawing 20 real leukapheresis from paediatric patients. In this phase we also analyse final core bag temperature, time of procedure, cellular recovery with ISHAGE single platform flow cytometry assay and clonogenic potential performing a CFU assay. RESULTS: We found no significant differences between the two methods, both for thermodynamic aspect and cellular recovery. Thawing curves were similar and the paired Student's-t test used for statistical analysis showed a CD34+ cells recovery of 92.2% ± 11.4 using WSCFD(®) versus 90% ± 11.1 of thermostatic bath. Data were similar even for leukocytes recovery (80.8% ± 9.5 with WSCFD(®) and 79.2% ± 14.4 with thermostatic bath). All thawed products never exceeded the core temperature of 30 °C and no differences were found about the post-thaw clonogenic potential (614 × 10(4) ± 98.3 total CFU using WSCFD(®) versus 592 × 10(4) ± 78.5 using thermostatic bath). The only difference observed was about the thawing time: WSCFD method requires a slightly longer time but, on the other hand, it correlates with reduced mean increase in temperature per minute, as a result of a more linear thawing curve. CONCLUSIONS: WSCFD(®) can replace the 37 °C thermostatic bath thawing procedure for leukapheresis, providing more security and fully traceable process data.

Pharmacological characterization of the serotonin transporter in young and elderly subjects.

The potency of some tricyclics (imipramine and clomipramine) and selective 5-HT reuptake inhibitors (fluoxetine, paroxetine, and citalopram) in displacing the [(3)H]paroxetine binding to platelet membranes was measured in young and elderly subjects of both sexes. The results showed that the most potent compound in all subjects was paroxetine, followed by clomipramine, citalopram, fluoxetine, and imipramine, with no differences between male and female subjects. All drugs, except paroxetine and clomipramine, showed significantly lower pKi values in the elderly subjects of both sexes. These findings would suggest that although the pharmacological profile of the 5-HT transporter is not modified qualitatively by age, quantitative changes in its affinity do perhaps occur which would justify more careful studies on this topic in order to get optimal dosages of drugs acting at this level.

Natural anti-bacterial activity against Salmonella typhi by human T4+ lymphocytes armed with IgA antibodies.

Peripheral blood mononuclear cells from normal volunteers possess natural anti-bacterial (NA) activity against S. typhi that can be measured in a 2-hr in vitro assay. Employing fractionation on nylon wool columns, Percoll gradients, plastic adherence, and E rosetting, the effector cell of NA activity appeared to be a lymphocyte of the T lineage rather than a macrophage, a B lymphocyte, or a large granular cell. Moreover, complement-dependent killing with monoclonal antibodies such as OKM1, OKB7, OKT8, 5.9 and the anti-natural killer cells AB8.28 did not reduce NA activity. On the contrary, this was completely inhibited when OKT3, OKT11, or OKT4 antibodies and complement were used to pretreat the effector lymphocytes. Indeed, T4+ cells sorted with a FACS displayed an extremely high NA activity against S. typhi. By pretreatment of peripheral lymphocytes with F(ab')2 fragments against human IgA, the NA activity was blocked. It is therefore suggested that NA activity by human cells might be a mechanism of defense against infections, acting as antibody-dependent cellular cytotoxicity expressed by T4+ lymphocytes coated with preexisting anti-Salmonella IgA antibodies.

Macrophage antitumor activity in vitro. Comparative analysis of cytolytic, cytostatic, and cytotoxic activities of mouse macrophages and human monocytes.

Mouse peritoneal M phi and human blood monocytes were assayed for their antitumor activity in vitro with a cytolysis, a cytostasis and a cytotoxicity test performed in parallel. Both natural and stimulus-induced M phi antitumor capacities were assessed. Results indicate that natural cytolytic activity of unstimulated M phi is generally unable to restrict final tumor cell growth, since it is not coupled with cytostatic capacity. In contrast, exposure of M phi in vitro to either MAF or IFN-beta, besides augmenting M phi cytolytic capacity, induced a very significant cytostatic activity and thus efficiently restricted the survival of tumor cells.