Activity of osimeRTInib in non-small-cell lung Cancer with UNcommon epidermal growth factor receptor mutations: retrospective Observational multicenter study (ARTICUNO).

BACKGROUND: Osimertinib represents the standard of care for the treatment of advanced non-small-cell lung cancer (NSCLC) harboring classical epidermal growth factor receptor (EGFR) mutations, constituting 80%-90% of all EGFR alterations. In the remaining cases, an assorted group of uncommon alterations of EGFR (uEGFR) can be detected, which confer variable sensitivity to previous generations of EGFR inhibitors, overall with lower therapeutic activity. Data on osimertinib in this setting are limited and strongly warranted. PATIENTS AND METHODS: The ARTICUNO study retrospectively evaluated data on osimertinib activity from patients with advanced NSCLC harboring uEGFR treated in 21 clinical centers between August 2017 and March 2023. Data analysis was carried out with a descriptive aim. Investigators collected response data according to RECIST version 1.1 criteria. The median duration of response, progression-free survival (mPFS), and overall survival were estimated by the Kaplan-Meier method. RESULTS: Eighty-six patients harboring uEGFR and treated with osimertinib were identified. Patients with 'major' uEGFR, that is, G719X, L861X, and S768I mutations (n = 51), had an overall response rate (ORR) and mPFS of 50% and 9 months, respectively. Variable outcomes were registered in cases with rarer 'minor' mutations (n = 27), with ORR and mPFS of 31% and 4 months, respectively. Among seven patients with exon 20 insertions, ORR was 14%, while the best outcome was registered among patients with compound mutations including at least one classical EGFR mutation (n = 13). Thirty patients presented brain metastases (BMs) and intracranial ORR and mPFS were 58% and 9 months, respectively. Amplification of EGFR or MET, TP53 mutations, and EGFR E709K emerged after osimertinib failure in a dataset of 18 patients with available rebiopsy. CONCLUSION: The ARTICUNO study confirms the activity of osimertinib in patients with uEGFR, especially in those with compound uncommon-common mutations, or major uEGFR, even in the presence of BMs. Alterations at the E709 residue of EGFR are associated with resistance to osimertinib.

Successful private-public funding of paediatric medicines research: lessons from the EU programme to fund research into off-patent medicines.

UNLABELLED: The European Paediatric Regulation mandated the European Commission to fund research on off-patent medicines with demonstrated therapeutic interest for children. Responding to this mandate, five FP7 project calls were launched and 20 projects were granted. This paper aims to detail the funded projects and their preliminary results. Publicly available sources have been consulted and a descriptive analysis has been performed. Twenty Research Consortia including 246 partners in 29 European and non-European countries were created (involving 129 universities or public-funded research organisations, 51 private companies with 40 SMEs, 7 patient associations). The funded projects investigate 24 medicines, covering 10 therapeutic areas in all paediatric age groups. In response to the Paediatric Regulation and to apply for a Paediatric Use Marketing Authorisation, 15 Paediatric Investigation Plans have been granted by the EMA-Paediatric Committee, including 71 studies of whom 29 paediatric clinical trials, leading to a total of 7,300 children to be recruited in more than 380 investigational centres. CONCLUSION: Notwithstanding the EU contribution for each study is lower than similar publicly funded projects, and also considering the complexity of paediatric research, these projects are performing high-quality research and are progressing towards the increase of new paediatric medicines on the market. Private-public partnerships have been effectively implemented, providing a good example for future collaborative actions. Since these projects cover a limited number of off-patent drugs and many unmet therapeutic needs in paediatrics remain, it is crucial foreseeing new similar initiatives in forthcoming European funding programmes.

Cell-surface marking of CD(34+)-restricted phenotypes of human hematopoietic progenitor cells by retrovirus-mediated gene transfer.

Human CD34+ cells lacking detectable levels of HLA-DR antigens (CD34+ DR-) are highly enriched in hematopoietic pluripotent progenitors with long-term marrow repopulating ability. We investigated the feasibility of transducing and marking CD34+ DR- progenitor cells from bone marrow (BM) or mobilized peripheral blood samples (MPB) of 13 patients undergoing BM transplantation with the purpose of developing a protocol for a large-scale clinical application. A new retroviral vector coding for the truncated form (delta) of the low-affinity nerve growth factor receptor (LNGFR) was used to quantitate the level of gene transfer into CD34+ cells and their progeny by multiparameter cytofluorimetry and immunocytochemistry. Light-density mononuclear cells as well as purified CD34+ cells were transduced either by direct incubation with retroviral supernatants or prestimulated in vitro with various combinations of growth factors prior to transduction. Transduction efficiency, assessed as G418-resistant growth of granulocyte-macrophage colony-forming units (CFU-GM) progenitors from MPB, was 1.7-fold higher (14.9% +/- 4.5%) than those from BM (8.5% +/- 3.9%) and it was further improved (26.9% +/- 3.1%) using a purified CD34+ population as target cells. Three-color fluorescence-activated cell sorting (FACS) analysis demonstrated the presence of transduced delta LNGFR+ cells within the CD34+ DR- subpopulation. In the absence of growth factors, gene transfer into BM or MPB CD34+ DR- cells was generally poor, but following a 72-hr prestimulation it peaked at 38% of total CD34+ DR- bone marrow (BM) cells in the presence of the c-kit ligand (KL) and at 31% in the presence of IL-3. Furthermore, KL gave, compared to the other cytokines, the highest absolute yield of BM delta LNGFR+ CD34+ DR- cells recovered after transduction (p = 0.05 compared to 24 hr). Gene transfer into in vitro primitive progenitor cells was further confirmed by expression of the delta LNGFR marker on CD34+ cells and CFU-GM derived from 5-week long-term culture on stroma.

HSV-TK gene transfer into donor lymphocytes for control of allogeneic graft-versus-leukemia.

In allogeneic bone marrow transplantation (allo-BMT), donor lymphocytes play a central therapeutic role in both graft-versus-leukemia (GvL) and immune reconstitution. However, their use is limited by the risk of severe graft-versus-host disease (GvHD). Eight patients who relapsed or developed Epstein-Barr virus-induced lymphoma after T cell-depleted BMT were then treated with donor lymphocytes transduced with the herpes simplex virus thymidine kinase (HSV-TK) suicide gene. The transduced lymphocytes survived for up to 12 months, resulting in antitumor activity in five patients. Three patients developed GvHD, which could be effectively controlled by ganciclovir-induced elimination of the transduced cells. These data show that genetic manipulation of donor lymphocytes may increase the efficacy and safety of allo-BMT and expand its application to a larger number of patients.

Flt3 ligand stimulates/costimulates the growth of myeloid stem/progenitor cells.

The present studies evaluated effects of recombinant human (rhu) and murine (rmu) flt3 ligand (flt3-L) on colony formation by subsets of myeloid stem and progenitor cells present in low-density (LD) and cell-sorted CD34 hu cord blood (CB) and bone marrow (BM) cells and unseparated mu BM cells. By itself, flt3-L had weak colony-stimulating activity. It stimulated small dispersed CFU-GM-type colonies, but not BFU-E, CFU-GEMM, or HPP-CFC colonies, from LD and CD34 huCB and BM. However, flt3-L had additive to greater-than-additive effects on colony number and size by CFU-GM stimulated with GM-CSF or IL-3, with or without Steel factor (SLF); by CFU-G stimulated by G-CSF with or without SLF; by CFU-M stimulated by CSF-1; and by BFU-E, CFU-GEMM, and HPP-CFC stimulated by Epo with or without IL-3 or SLF. Flt3-L enhanced the effects of SLF, alone and in combination with other CSFs. Similar effects were apparent on LD and sorted CD34 cells and also at the level of single sorted and isolated CD34 cells/well. Flt3-L enhanced expansion of immature subsets of huCD34(+)-column separated CB CFU-GM stimulated by the potent combination of SLF and PIXY321 (a GM-CSF/IL-3 fusion protein). While flt3-L did not enhance the replating capacity of CFU-GEMM plated in the presence of Epo and SLF, it enhanced numbers of these CFU-GEMM colonies with the capacity to be replated. Flt3-L effects were not species-specific; rhu and rmu forms were active on huCB/BM and muBM. These results demonstrate the potent direct-acting stimulating/costimulating activities of flt3-L in vitro on myeloid stem/progenitor cells.

Effect of desferrioxamine and hydroxypyridones on hemopoietic progenitors and neuroectodermal tumor cells.

The iron chelator desferrioxamine (DFO) has been shown to inhibit the proliferation of hemopoietic progenitors and several tumor cell lines. We have compared the in viro hemopoietic inhibitory effect of desferrioxamine (DFO) and hydroxypyridones (HPOs) on hemopoietic progenitors and two human neuroectodermal (NE) tumor cell lines, NB 100 and SKNMC. Both DFO and HPOs showed a direct dose-related inhibitory effect on BFU-E and CFU-GM obtained from purified human non-T MNAC (T-lymphocyte-depleted nonadherent mononuclear cells) and CD34+ cells. DFO and HPOs displayed both an inhibitory and a cytotoxic effect on NE cell lines. We calculated the ratio between NE cell and hemopoietic cell growth inhibition for a range of concentrations of chelators. DFO showed the most satisfactory ratio. This suggests that DFO is still the most preferable chelating agent for the treatment of neuroblastoma, since it combines the highest antineuroblastoma effect with the lowest hematopoietic toxicity.

Human peripheral blood granulocytes and myeloid leukemic cell lines express both transcripts encoding for stem cell factor.

Stem cell factor (SCF), the ligand for the c-kit proto-oncogene, has been shown to play a critical role in the migration of melanocytes and germ cells during embryogenesis as well as in the proliferative control of the hematopoietic compartment. In this study we investigated the expression of both the soluble and transmembrane SCF forms in purified peripheral blood populations and in several hematopoietic cell lines. Expression of both transcripts, though in different ratios, was identified in whole bone marrow, in bone marrow stromal cells and in human peripheral blood. In peripheral blood, SCF expression could be ascribable to polymorphonuclear leukocytes (PMN), whereas no SCF expression was detected in isolated lymphocytes, monocytes and in some T lymphoid cell lines. Conversely, some hematopoietic myeloid cell lines, such as HL-60, KG1 and K562, express SCF with similar patterns.

Adeno-associated virus 2-mediated high efficiency gene transfer into immature and mature subsets of hematopoietic progenitor cells in human umbilical cord blood.

Recombinant adeno-associated virus 2 (AAV) virions were constructed containing a gene for resistance to neomycin (neoR), under the control of either the herpesvirus thymidine kinase (TK) gene promoter (vTK-Neo), or the human parvovirus B19 p6 promoter (vB19-Neo), as well as those containing an upstream erythroid cell-specific enhancer (HS-2) from the locus control region of the human beta-globin gene cluster (vHS2-TK-Neo; vHS2-B19-Neo). These recombinant virions were used to infect either low density or highly enriched populations of CD34+ cells isolated from human umbilical cord blood. In clonogenic assays initiated with cells infected with the different recombinant AAV-Neo virions, equivalent high frequency transduction of the neoR gene into slow-cycling multipotential, erythroid, and granulocyte/macrophage (GM) progenitor cells, including those with high proliferative potential, was obtained without prestimulation with growth factors, indicating that these immature and mature hematopoietic progenitor cells were susceptible to infection by the recombinant AAV virions. Successful transduction did not require and was not enhanced by prestimulation of these cell populations with cytokines. The functional activity of the transduced neo gene was evident by the development of resistance to the drug G418, a neomycin analogue. Individual high and low proliferative colony-forming unit (CFU)-GM, burst-forming unit-erythroid, and CFU-granulocyte erythroid macrophage megakaryocyte colonies from mock-infected, or the recombinant virus-infected cultures were subjected to polymerase chain reaction analysis using a neo-specific synthetic oligonucleotide primer pair. A 276-bp DNA fragment that hybridized with a neo-specific DNA probe on Southern blots was only detected in those colonies cloned from the recombinant virus-infected cells, indicating stable integration of the transduced neo gene. These studies suggest that parvovirus-based vectors may prove to be a useful alternative to the more commonly used retroviral vectors for high efficiency gene transfer into slow or noncycling primitive hematopoietic progenitor cells, without the need for growth factor stimulation, which could potentially lead to differentiation of these cells before transplantation.

Cytokine-dependent ex vivo expansion of early subsets of CD34+ cord blood myeloid progenitors is enhanced by cord blood plasma, but expansion of the more mature subsets of progenitors is favored.

Expansion of stem/progenitor cells has important implications for transplantation. We recently reported that a factor or factors in cord blood (CB), but not adult peripheral blood (PB), plasma enhanced replating of granulocyte erythroid macrophage megakaryocyte colony-forming units (CFU-GEMM) progenitors, a measure of self-renewal capacity. In this context, we evaluated effects of CB plasma, in comparison with PB plasma and fetal bovine serum (FBS), on ex vivo expansion of CD34+ column-separated (72-98% CD34+) CB cells using stroma-free cultures in the absence and presence of either PIXY321 (a granulocyte-macrophage colony-stimulating factor/interleukin-3 [GM-CSF/IL-3] fusion protein), IL-3+IL-6+IL-1, or steel factor (SLF) -/+ PIXY. CB plasma, PB plasma, or FBS alone did not sustain cell numbers. Combinations of CB plasma +SLF+PIXY induced maximal cumulative nucleated cell expansion (1044-fold), which was greater than that of PB plasma plus cytokines (633-fold) and FBS plus cytokines (142-fold). Total CD34+ cells peaked by day 7 with 7-fold expansion in the presence of CB plasma+SLF+PIXY compared with PB plasma or FBS with these same cytokines (threefold each). By day 7, total CFU-GEMM production in the presence of either PIXY, SLF+PIXY, or IL-3+IL-6+IL-1 was greater with CB plasma (maximum 11.4-fold average increases) than with PB plasma (6.8-fold increase). These increases were greater than with FBS. However, PB plasma was at least as good as CB plasma for expansion of immature and mature subsets of CFU-GM. The frequency of progenitors decreased with time, and expansion was coupled with differentiation. Although the proliferative capacity of CFU-GEMM was maintained, the capacity of CFU-GEMM to be replated decreased after time in suspension culture, suggesting age-related commitment of cells. Moreover, with plasma +SLF+PIXY for 7 days, expansion of more mature CFU-GM (responsive to GM-CSF) was greater (16-146-fold with CB plasma and 31-208-fold with PB plasma) than immature CFU-GM (responsive to GM-CSF+SFL) (4- to 14-fold with CB plasma and 6- to 17-fold with PB plasma). The results suggest that CB plasma enhances expansion of CFU-GEMM to a greater extent than PB plasma or FBS, but expansion in these cultures favors more mature subsets of cells.

[Aspects of organ-specific autoimmunity in cluster headache]. / Aspetti autoimmunitari organo-specifici della cefalea a grappolo.

Fourty-eight cluster headache patients have been studied. Twenty-nine of them were affected also by rhythm cardiac abnormalities, and the other 19 by associated conjunctival hyperaemia. The presence of organ-specific autoantibodies was investigated by immunofluorescence. High titers of antibodies against cardiac antigenic determinants was found. The study of leukocyte subpopulations revealed a parallel increase in blood and in conjunctival mucosa of Leu7+ and LeuM3+ cells. These outcomes confirm the immunopathological theory of cluster headache.