北口 暢哉

The efficacy of skin regeneration devices consisting of nonwoven filters and peripheral blood cells was investigated for wound healing. We previously found that human peripheral blood cells enhanced their production of growth factors, such as transforming growth factor beta 1 (TGF-beta 1) and vascular endothelial growth factor, when they were captured on nonwoven filters. Cells on biodegradable filters were expected to serve as a local supply of growth factors and cell sources when they were placed in wounded skin. Nonwoven filters made of biodegradable polylactic acid (PLA) were cut out as 13-mm disks and placed into cell-capturing devices. Mouse peripheral blood was filtered, resulting in PLA filters with mouse peripheral blood cells (m-PBCs) at capture rates of 65.8 +/- A 5.2 %. Then, the filters were attached to full-thickness surgical wounds in a diabetic db/db mouse skin for 14 days as a model of severe chronic wounds. The wound area treated with PLA nonwoven filters with m-PBCs (PLA/B+) was reduced to 8.5 +/- A 12.2 % when compared with day 0, although the non-treated control wounds showed reduction only to 60.6 +/- A 27.8 %. However, the PLA filters without m-PBCs increased the wound area to 162.9 +/- A 118.7 %. By histopathological study, the PLA/B+ groups more effectively accelerated formation of epithelium. The m-PBCs captured on the PLA filters enhanced keratinocyte growth factor (FGF-7) and TGF-beta 1 productions in vitro, which may be related to wound healing. This device is useful for regeneration of wounded skin and may be adaptable for another application.

Increased levels of hypo-galactosylated immunoglobulin (Ig)A1 (HG-IgA1) in IgA nephropathy (IgAN) have been detected using a Helix aspersa agglutinin lectin enzyme-linked immunosorbent assay (ELISA). In this study, we developed monoclonal antibodies to evaluate the HG-IgA1 in IgA nephropathy, aiming to gain a more consistent and reproducible assay. As an analogue to the HG-IgA1 hinge region, a 19 mer synthetic peptide with five GalNAc (sHGP) residues at positions 4, 7, 9, 11 and 15 [VPST(GalNAc)PPT(GalNAc)PS(GalNAc)PS(GalNAc)TPPT (GalNAc)PSPS-NH2] was synthesized. Two monoclonal antibodies against sHGP (35A12 and 44H8) that reacted with human IgA were developed. Also, their reactivities to serum IgA from IgAN patients (n = 49), patients with other forms of kidney diseases (OKD, n = 48), and healthy controls (HC, n = 41) were evaluated using ELISA assays. The binding levels of the two monoclonal antibodies against serum IgA were significantly higher (all comparisons, p < 0.0001, Steel-Dwass non-parametric test) in IgAN patients compared to HC and OKD patients. In each individual, there was a close correlation of IgA binding levels between 35A12 and 44H8 (R (2) = 0.737). These results indicate that the monoclonal antibodies recognize similar epitopes in HG IgA1, which is found predominantly in IgAN patients. The developed antibodies are proposed as a clinically useful tool for IgAN screening.

Scaffolds, growth factors, and cells are three essential components in regenerative medicine. Nonwoven filters, which capture cells, provide a scaffold that localizes and concentrates cells near injured tissues. Further, the cells captured on the filters are expected to serve as a local supply of growth factors. In this study, we investigated the growth factors produced by cells captured on nonwoven filters. Nonwoven filters made of polyethylene terephthalate (PET), biodegradable polylactic acid (PLA), or chitin (1.2-22 mu m fiber diameter) were cut out as 13 mm disks and placed into cell-capturing devices. Human mesenchymal stem cells derived from adipose tissues (h-ASCs) and peripheral blood cells (h-PBCs) were captured on the filter and cultured to evaluate growth factor production. The cell-capture rates strongly depended on the fiber diameter and the number of filter disks. Nonwoven filter disks were composed of PET or PLA fibers with fiber diameters of 1.2-1.8 mu m captured over 70 % of leukocytes or 90 % of h-ASCs added. The production of vascular endothelial growth factor (VEGF), transforming growth factor beta 1, and platelet-derived growth factor AB were significantly enhanced by the h-PBCs captured on PET or PLA filters. h-ASCs on PLA filters showed significantly enhanced production of VEGF. These enhancements varied with the combination of the nonwoven filter and cells. Because of the enhanced growth factor production, the proliferation of human fibroblasts increased in conditioned medium from h-PBCs on PET filters. This device consisting of nonwoven filters and cells should be investigated further for possible use in the regeneration of impaired tissues.