Lysosomal Glycohydrolase Activities in Dendritic Cells: Is It a Function of Hematopoietic Stem Cells Differentiation Process?.

A key mechanism responsible for processing of peptide-MHC class II complexes in mature Dendritic Cells (DCs) is the generalized activation of lysosomal function. Mechanisms underlie these developmental changes are controversial. Thus, it is unclear whether immature DCs can present self antigens, and which are the checkpoints that regulate antigen presentation in immature and mature DCs. Here we generated in-vitro human DCs from peripheral blood CD34+ hematopoietic stem cells (HSCs), by adding to the medium culture Flt-3, GM-CSF, IL-4, and TNF-a (cytokine cocktail, CC) at 37°C for 14 days, and analysed the lysosomal glycohydrolases production and function. Lysosomal enzymes, b-N-Acetyl-Hexosaminidase, a-Mannosidase, b-Galactosidase and b-Glucoronidase are highly increased in a wide range in DCs (14 days of culture) with respect to the CD34+HSCs. All the glycohydrolases activities measured at 3 and 7 days in-vitro culture, were similar and four times more than CD34+HSCs (day 0) respectively. Interestingly, no activities increase were observed, even when SCF, an early acting cytokine, promoting cellular proliferation, were added to the CC medium, indicating that this phenomenon is independent from the proliferation process. Moreover, LPS treatment, to induce DCs maturation, slightly enhance the specific activities of all enzymes that we tested as respect to the untreated cells. and support the evidence that the lysosomal glycohydrolases activation is up-stream to DCs maturation process. Furthermore, for the first time, this date indicated that lysosomal glycohydrolases are regulated during the stem cell differentiation process. Understanding the key mechanism leading this phenomenon is critical for therapeutic application in immunologic or neoplastic disease.