Folinic Acid Supplementation in Higher Doses is Associated with Graft Rejection in Pediatric Hematopoietic Stem Cell Transplantation

AbstractFolinic acid is widely used in hematopoietic stem cell transplantation (SCT), mainly to reverse antifolate effects of such drugs as methotrexate and cotrimoxazole but also empirically to reduce toxicity and support hematopoietic recovery. However, concerns have been raised in oncohematology about reduced curative rates associated with folinic acid administration. The clinical impact of folinic acid with regard to graft-versus-host disease (GVHD), relapse, and rejection in pediatric SCT is largely undetermined. In this single-center retrospective study we investigated folinic acid administration in 87 children undergoing SCT between 2007 and 2010. Data on folinic acid dosage and duration were analyzed along with SCT parameters using univariate and multivariate statistics. Folinic acid treatment was not correlated with relapse or GVHD grades ≥ II. However, significantly higher folinic acid doses until day +21 post-SCT had been administered to patients rejecting their grafts (P < .005). In a subanalysis of nonmalignant disease and reduced-intensity conditioning (RIC) SCTs, higher total folinic acid doses were found to be associated with rejection (P = .015 and P = .026). Multivariate analysis identified RIC (odds ratio, 19.9; P < .01) and an early total folinic acid dose of >185 mg/m2 (odds ratio, 11.4; P = .03) as risk factors for graft rejection. Late folinic acid treatment had no impact on relapse, GVHD, and rejection. To conclude, administration of folinic acid in pediatric SCT seems safe in terms of relapse and GVHD. However, it should be carried out with caution, especially in patients with nonmalignant conditions and those receiving RIC to avoid graft rejection

A Disintegrin and A Metalloproteinase-9 (ADAM9):A novel proteinase culprit with multifarious contributions to chronic obstructive pulmonary disease

INTRODUCTION: Proteinases with a disintegrin and a metalloproteinase domain (ADAMs) have not been well studied in COPD. We investigated whether ADAM9 is linked to COPD in humans and mice.METHODS: ADAM9 blood and lung levels were measured in COPD patients versus controls, and air- versus cigarette smoke (CS)-exposed wild-type (WT) mice. WT and Adam9-/- mice were exposed to air or CS for 1-6 months, and COPD-like lung pathologies were measured.RESULTS: ADAM9 staining was increased in lung epithelial cells and macrophages in smokers and even more so in COPD patients and correlated directly with pack-year smoking history and inversely with airflow obstruction and/or FEV1 % predicted. Bronchial epithelial cell ADAM9 mRNA levels were higher in COPD patients than controls and correlated directly with pack-year smoking history. Plasma, BALF and sputum ADAM9 levels were similar in COPD patients and controls. CS exposure increased Adam9 levels in WT murine lungs. Adam9-/- mice were protected from emphysema development, small airway fibrosis, and airway mucus metaplasia. CS-exposed Adam9-/- mice had reduced lung macrophage counts, alveolar septal cell apoptosis, lung elastin degradation, and shedding of VEGFR2 and EGFR in BALF samples. Recombinant ADAM9 sheds EGF and VEGF receptors from epithelial cells to reduce activation of the Akt pro-survival pathway and increase cellular apoptosis.CONCLUSIONS: ADAM9 levels are increased in COPD lungs and linked to key clinical variables. Adam9 promotes emphysema development, and large and small airway disease in mice. Inhibition of ADAM9 could be a therapeutic approach for multiple COPD phenotypes.</p