Modified polyamide fibers with low surface friction coefficient to reduce microplastics emission during domestic laundry.

The widespread presence of microplastics has become a serious threat to humans and ecological environments because they carry many pollutants and can be easily ingested by aquatic organisms. Fibrous microplastics (FMPs) released from synthetic fiber garments during domestic laundry are a major source of contamination. Herein, we report a facile FMPs mitigation strategy for polyamide 6 (PA6) fibers by incorporating environmentally friendly polydimethylsiloxane (PDMS) during melt spinning. The obtained PA6/PDMS fibers showed a lower friction coefficient than the pure PA6 fibers. Surface morphology, tribology, and washing characterizations verified that a 60% reduction in FMPs shedding was achieved by reducing the friction. In addition, the low-surface-friction PA6/PDMS fabrics with high hydrophobicity exhibited improved waterproof and anti-stain behaviors. It is important to note that none of the essential properties, such as surface structure, dyeing and printing of the fabrics were compromised after PDMS blending. This study provides a green and scalable route for mitigating laundry microfibers using a fiber domain design.

Double CT imaging can measure the respiratory movement of small pulmonary tumors during stereotactic ablative radiotherapy.

PURPOSE: The purpose of this study was to investigate the application of double CT imaging to measuring the respiratory movement of small pulmonary tumors during stereotactic ablative radiotherapy (SABR). METHODS: A total of 122 small pulmonary tumors were measured in 45 patients. CT scans were conducted twice in all 122 tumors, once at the end of quiet inhalation and once at the end of exhalation. CT scans were conducted three times including at the end of quiet inhalation, at the end of exhalation and at free breathing in 36 tumors of 17 patients. The displacement of the tumor center in three directions was measured. RESULTS: The 3D motion of 122 tumors was 10.10±7.16 mm. On average, the tumors moved 1.96±2.03 mm (rang, 0-9 mm) in the X direction, 5.19±4.69 mm (rang, 0-19 mm) in the Y direction, and 7.38±6.48 mm (rang, 0-26 mm) in the Z direction. The 3D motion of tumors in the lower lung (13.00±7.64 mm) was significantly greater than that in the upper lung (7.15±5.14 mm), P<0.01. The 3D motion of the lower left lung was 16.35±7.31 mm, which was significantly greater than that of the lower right lung (11.40±7.04 mm), P<0.05. Movement in the anterior lung in the Y direction was significantly larger than in the posterior lung. The motion was 7.49±5.43 mm and 4.04±3.82 mm respectively, P<0.01. CONCLUSIONS: Double CT imaging provides accurate data for determining the outline of each target area during stereotactic ablative radiotherapy plane. The location of small pulmonary tumor foci was significantly affected by respiratory and cardiac motion.

Ribosomal RNA depletion for massively parallel bacterial RNA-sequencing applications.

RNA-sequencing (RNA-Seq) is a digital display of a transcriptome using next-generation sequencing technologies and provides detailed, high-throughput view of the transcriptome. The first step in RNA-Seq is to isolate whole transcriptome from total RNA. Since large ribosomal RNA (rRNA) constitutes approximately 90% RNA species in total RNA, whole transcriptome analysis without any contamination from rRNA is very difficult using existing RNA isolation methods. RiboMinus(™) purification method provides a novel and efficient method to isolate RNA molecules of the transcriptome devoid of large rRNA from total RNA for transcriptome analysis. It allows for whole transcriptome isolation through selective depletion of abundant rRNA molecules from total RNA. The rRNA depleted RNA fraction is termed as RiboMinus(™) RNA fraction, which is enriched in polyadenylated RNA, nonpolyadenylated RNA, preprocessed RNA, tRNA, numerous regulatory RNA molecules, and other RNA transcripts of yet unknown function. Using RiboMinus(™) method to isolate RiboMinus RNA results in up to 99.0% removal of 16S and 23S rRNA molecules from 0.5 to 10 µg total bacterial RNA based on Bioanalyzer analysis. It enables efficient whole transcriptome sequencing analysis without major contamination from highly abundant rRNA. Residual rRNA accounts for less than 10% of entire transcriptome based on both SOLiD and Genome Analyzer RNA-Seq data.

Murine bone marrow-derived mesenchymal stem cells as vehicles for interleukin-12 gene delivery into Ewing sarcoma tumors.

BACKGROUND: This study evaluated the therapeutic efficacy of interleukin 12 (IL-12) gene therapy in Ewing sarcoma and whether murine mesenchymal stem cells (MSCs) could serve as vehicles for IL-12 gene delivery. METHODS: MSCs were isolated from murine bone marrow cells. Cells were phenotyped using flow cytometry. Cultured MSCs differentiated into osteocytes and adipocytes using the appropriate media. Freshly isolated MSCs were transfected with adenoviral vectors containing either the beta-galactosidase (Ad:beta-gal) or the IL-12 (Ad:IL-12) gene. Expression of IL-12 was confirmed using reverse transcription polymerase chain reaction. Mice with TC71 Ewing sarcoma tumors were then treated intravenously with MSCs transfected with Ad:beta-gal or Ad:IL-12. Tumors were measured and analyzed by immunohistochemical analysis for expression of IL-12 protein. RESULTS: Expression of both p35 and p40 IL-12 subunits was demonstrated in MSCs transfected in vitro with Ad:IL-12. IL-12 expression was seen in tumors from mice treated with MSCs transfected with Ad:IL-12. Tumor growth was also significantly inhibited compared with that in mice treated with MSCs transfected with Ad:beta-gal. CONCLUSIONS: MSCs can be transfected with the IL-12 gene. These transfected cells localize to tumors after intravenous injection and induce local IL-12 protein production and the regression of established tumors.

VEGF165 promotes the osteolytic bone destruction of ewing's sarcoma tumors by upregulating RANKL.

The purpose of this study was to determine whether vascular endothelial growth factor-165 (VEGF165) contributed to the osteolytic process in Ewing's sarcoma. VEGF165 induced osteoclast formation from murine bone marrow cells. Tartrate-resistant acid phosphatase (TRAP) staining demonstrated significantly fewer osteoclasts in VEGF-inhibited TC/siVEGF7-1 tumors compared to TC71 parental or TC/si-control tumors. Receptor activator NF-kappaB (RANKL), a critical osteoclastogenic factor, was decreased in TC/siVEGF7-1 cells. Incubation of these cells with recombinant VEGF165 upregulated RANKL in a dose- and time-dependent manner. The induction of (RANKL) by VEGF165 was also demonstrated in MC3T3-E1 mouse osteoblast cells and bone marrow stromal cells. This upregulation was transcriptionally mediated by an effect on the RANKL promoter. Both VEGF and EWS/FLI-1 increased RANKL promoter activity. Taken together, these data suggest that modulation of RANKL by VEGF165 may be one of the mechanisms responsible for the osteolytic process induced by Ewing's sarcoma cells. VEGF165 may, therefore, play an important role in modulating RANKL gene expression in the bone marrow microenvironment during the metastatic process, thereby contribution to tumor induced bone lysis.

VEGF165 is necessary to the metastatic potential of Fas(-) osteosarcoma cells but will not rescue the Fas(+) cells.

Our previous studies showed that Fas expression correlates inversely with the metastatic potential of osteosarcoma (OS) cells and that the manipulation of Fas expression alters the lung metastatic phenotype. However, the role of VEGF in the growth and metastases of OS is unclear. The purpose of this study was to determine whether altering VEGF expression affects lung metastatic potential. LM7 metastatic OS cells were transfected with a small interfering RNA targeting human VEGF165 (LM7/siVEGF165) or a pcDNA4 plasmid expressing human VEGF165 (LM7/VEGF). We confirmed that VEGF165 expression was decreased in LM7/siVEGF165 cells and was increased in LM7/VEGF clones compared with control transfected clones. Fas expression was not altered in these transfected clones. We also transfected LM7 cells with Fas (LM7/Fas) or Fas together with VEGF165 (LM7/Fas/VEGF) to determine whether the overexpression of VEGF165 could enhance the metastatic potential of LM7 OS cells with high Fas expression (Fas(+)). LM7/siVEGF165 and LM7/Fas cells showed decreased lung metastatic potential. In addition, the overexpression of VEGF had no effect on the ability of LM7/Fas cells to form lung metastases. We therefore concluded that VEGF165 is critical to lung metastatic potential but is not sufficient to allow Fas(+) OS cells to survive in the Fas ligand lung microenvironment.

Suppression of Ewing's sarcoma tumor growth, tumor vessel formation, and vasculogenesis following anti vascular endothelial growth factor receptor-2 therapy.

PURPOSE: We previously showed that bone marrow cells participate in new tumor vessel formation in Ewing's sarcoma, and that vascular endothelial growth factor 165 (VEGF(165)) is critical to this process. The purpose of this study was to determine whether blocking VEGF receptor 2 (VEGFR-2) with DC101 antibody suppresses tumor growth, reduces tumor vessel formation, and inhibits the migration of bone marrow cells into the tumor. EXPERIMENTAL DESIGN: An H-2 MHC-mismatched bone marrow transplant Ewing's sarcoma mouse model was used. Bone marrow cells from CB6F1 (MHC H-2(b/d)) mice were injected into irradiated BALB/cAnN mice (MHC H-2(d)). TC71 Ewing's sarcoma cells were s.c. injected 4 weeks after the bone marrow transplantation. Mice were then treated i.p. with DC101 antibody or immunoglobulin G (control) twice a week for 3 weeks starting 3 days after tumor cell injection. RESULTS: DC101 antibody therapy significantly reduced tumor growth and tumor mean vessel density (P < 0.05) and increased tumor cell apoptosis. Decreased bone marrow cell migration into the tumor was also shown after DC101 therapy as assessed by the colocalization of H-2K(b) and CD31 using immunohistochemistry. DC101 inhibited the migration of both human and mouse vessel endothelial cells in vitro. CONCLUSION: These results indicated that blocking VEGFR-2 with DC101 antibodies may be a useful therapeutic approach for treating patients with Ewing's sarcoma.

Intranasal interleukin-12 gene therapy enhanced the activity of ifosfamide against osteosarcoma lung metastases.

BACKGROUND: Cyclophosphamide (CTX) and ifosfamide (IFX) are alkylating agents used to treat osteosarcoma (OS). It was previously demonstrated that the sensitivity of OS cells to 4-hydroperoxycyclophosphamide (4-HC, the active metabolite of CTX) is augmented by interleukin (IL)-12 in vitro through a mechanism involving the Fas/FasL pathway. The purpose of these studies was to determine whether this synergistic effect is operational in vivo. METHODS: Mice were injected intravenously with human LM7 osteosarcoma cells. Treatment was initiated with IFX (2.5 mg/kg intraperitoneally) with or without intranasal polyethylenimine (PEI):IL-12 gene therapy given twice weekly for 6 weeks. RESULTS: Expression of IL-12 protein in the lung was demonstrated in all mice receiving intranasal PEI:IL-12 but not in control mice or those treated with IFX alone. Increased expression of FasL was detected in lungs of all mice receiving IFX. Both IFX and PEI:IL-12 alone significantly inhibited lung metastasis when compared with control groups (P < 0.05). However, the most significant tumor effect was observed in mice receiving IFX+PEI:IL-12 (P < 0.01). Immunohistochemical staining for CD31 and basic fibroblast growth factor (bFGF) and the number of proliferating cells as quantified by proliferating cell nuclear antigen (PCNA) staining were also most significantly decreased in mice receiving combination therapy. CONCLUSIONS: These data indicate that combining IFX and IL-12 may have therapeutic potential and that this increased efficacy may be mediated through a mechanism involving the Fas/FasL pathway.

Zoledronic acid inhibits primary bone tumor growth in Ewing sarcoma.

BACKGROUND: Zoledronic acid has been shown to be effective in the treatment of osteoporosis, hypercalcemia, and metastatic bone tumors. The efficacy of zoledronic acid on primary bone tumors has not been investigated. METHODS: A primary bone tumor mouse model was established. Intratibia injection of TC71 cells resulted in an osteolytic bone tumor. Four days after injection the mice were treated with zoledronic acid alone, paclitaxel alone, or zoledronic acid plus paclitaxel. Control mice were treated with phosphate-buffered saline. Bone tumor growth was assessed using a Faxitron Specimen Radiography System. The gene expression was detected by reverse-transcription polymerase chain reaction (RT-PCR), ELISA, and immunohistochemistry. Osteoclast formation was determined by tartrate-resistant acid phosphatase (TRAP) staining. RESULTS: Zoledronic acid induced apoptosis in TC71 human Ewing sarcoma cells and inhibited cell proliferation. Five weeks after injection, 89% of mice in the control group developed osteolytic bone tumors. Paclitaxel had little effect on bone tumor growth, with 78% of mice developing tumors. By contrast, 44% of mice treated with zoledronic acid developed bone tumors. The most effective treatment was zoledronic acid plus paclitaxel. Tumor incidence in the combination therapy group was only 22%. Osteoclasts were quantified using TRAP staining. There was a decrease in TRAP-positive osteoclasts in tumor tissues from zoledronic acid-treated animals compared to control animals. RT-PCR, immunohistochemistry, and ELISA assay demonstrated that zoledronic acid up-regulated osteoprotegerin expression. CONCLUSIONS: These results suggest that zoledronic acid induces apoptosis and inhibits primary bone tumor growth in Ewing sarcoma through a mechanism involving the up-regulation of osteoprotegerin. Zoledronic acid may provide a novel therapeutic approach for the treatment of patients with Ewing sarcoma.

Osterix, a transcription factor for osteoblast differentiation, mediates antitumor activity in murine osteosarcoma.

Osterix is a novel zinc finger-containing transcription factor that is essential for osteoblast differentiation and bone formation. We hypothesized that osterix might have a role in osteosarcoma tumor growth and metastasis. Northern blot analysis showed that the mRNA level of osterix was decreased in two mouse osteosarcoma cell lines compared with its level in normal mouse osteoblasts. Osterix expression was also decreased in three human osteosarcoma cell lines. Transfection of the osx gene into the mouse osteosarcoma cells inhibited tumor cell growth in vitro and in vivo and significantly reduced tumor incidence, tumor volume, and lung metastasis following intratibial injection. Osterix expression was also associated with decreased osteolysis. Using an in vitro migration assay, osterix suppressed the migration of tumor cells to lung extracts. These results suggest that osterix expression may play a role in osteosarcoma tumor growth and metastasis.

Increased Fas expression reduces the metastatic potential of human osteosarcoma cells.

PURPOSE: The process of metastasis requires the single tumor cell that seeds the metastatic clone to complete a complex series of steps. Identifying factors responsible for these steps is essential in developing and improving targeted therapy for metastasis. Resistance to receptor-mediated cell death, such as the Fas/Fas ligand pathway, is one mechanism commonly exploited by metastatic cell populations. EXPERIMENTAL DESIGN AND RESULTS: LM7, a subline of the SAOS human osteosarcoma cell line with low Fas expression, was selected for its high metastatic potential in an experimental nude mouse model. When transfected with the full-length Fas gene (LM7-Fas), these cells expressed higher levels of Fas than the parental LM7 cells or LM7-neo control-transfected cells. These cells were also more sensitive to Fas-induced cell death than controls. When injected intravenously into nude mice, the LM7-Fas cell line produced a significantly lower incidence of tumor nodules than control cell lines. Lung weight and tumor nodule size were also decreased in those mice injected with LM7-Fas. Levels of Fas were quantified in osteosarcoma lung nodules from 17 patients. Eight samples were Fas negative, whereas the remaining 9 were only weakly positive compared with normal human liver (positive control). CONCLUSIONS: Our results demonstrate that altering Fas expression can impact the metastatic potential of osteosarcoma cells. We conclude that the increase of Fas on the surface of the LM7 osteosarcoma cells increased their sensitivity to Fas-induced cell death in the microenvironment of the lung, where Fas ligand is constitutively expressed. Thus, loss of Fas expression is one mechanism by which osteosarcoma cells may evade host resistance mechanisms in the lung, increasing metastatic potential. Fas may therefore be a new therapeutic target for osteosarcoma.

Interleukin-12 enhances the sensitivity of human osteosarcoma cells to 4-hydroperoxycyclophosphamide by a mechanism involving the Fas/Fas-ligand pathway.

Cyclophosphamide (CY) and its derivative ifosfamide are alkylating agents used to treat osteosarcoma (OS). The purpose of these studies was to determine whether alkylating agents affect the expression of Fas ligand (FasL) and whether interleukin 12 enhances the sensitivity of human OS cells to alkylating agents. 4-Hydroperoxycyclophosphamide (4-HC), the preactivated CY compound, and 4-hydroperoxydidechlorocloclophosphamide (4-HDC), its nonalkylating analogue, human OS LM6 cells, and a clone of cells derived by transfection with the interleukin 12 gene (LM6-#6) were used for these studies. Incubation of LM6 and LM6-#6 with 10 micro M 4-HC increased the expression of FasL mRNA (2.5- and 3.0-fold, respectively). By contrast, 4-HDC, Adriamycin (ADR), cisplatin (CDP), and methotrexate (MTX) had no effect on FasL mRNA expression. Increased FasL expression after treatment with 4-HC was also demonstrated by immunohistochemistry and flow cytometry. Drug-induced FasL was functional and mediated cell death. We examined the effect of FasL up-regulation by 4-HC on LM6 and LM6-#6 cells. Flow cytometry showed that LM6-#6 cells expressed 2.2-fold more Fas than LM6 cells. Cytotoxicity of 4-HC, 4-HDC, ADR, CDP, and MTX on LM6, LM6-neo, and LM6-#6 were quantified. Colony-forming assay revealed an IC(50) of 2.10 micro M for 4-HC in LM6-neo cells compared with 0.41 micro M in LM6-#6 cells. The IC(50) for 4-HDC, ADR, CDP, and MTX were not significantly different between the two cell lines. We concluded that the increased expression of Fas enhanced LM6-#6 sensitivity to 4-HC. These data indicate that Fas/FasL may be involved in the cytotoxic pathway of CY. Combining biological agents with chemotherapeutic agents that have complementary Fas/FasL pathway actions may offer new therapeutic alternatives.

Association of alphavbeta3 integrin expression with the metastatic potential and migratory and chemotactic ability of human osteosarcoma cells.

INTRODUCTION: Expression of adhesion molecules such as alphavbeta3 integrin has been associated with the metastatic potential of tumor cells. The purpose of this study was to determine whether alphavbeta3 expression correlated with the metastatic potential of human osteosarcoma cells. MATERIALS AND METHODS: We developed a series of sublines (LM2-LM7) from human osteosarcoma SAOS parental cells, with progressively increasing potential to form lung metastases in nude mice after intravenous injection. SAOS parental and LM2 cells were poorly metastatic, but LM7 cells resulted in visible metastatic lung nodules by 6-8 weeks. We quantified alphavbeta3 integrin expression using flow cytometry. RESULTS: alphavbeta3 expression correlated with the metastatic potential of the cells, with LM7 cells showing the highest expression. LM7 cell adhesion to vitronectin decreased after treatment with echistatin, a RGD-containing peptide antagonist of alphavbeta3. LM7 cells demonstrated higher chemotactic activity than SAOS cells to a homogenate made from lung tissue. This chemotactic activity was also inhibited by echistatin. These data indicated that alphavbeta3 was critical for the migration of LM7 cells to the lung homogenate. Chemotaxis to a liver homogenate was the same for LM7 and SAOS cells. Migration of LM7 cells through lung endothelial cells was higher than that through liver endothelial cells, and echistatin again inhibited this migration. CONCLUSIONS: alphavbeta3 integrin expression may play a role in the metastatic potential of osteosarcoma cells by enhancing the ability of the cells to migrate specifically to the lung. Alphavbeta3 integrin may therefore be a potential new target for osteosarcoma.

Aerosol gene therapy with PEI: IL-12 eradicates osteosarcoma lung metastases.

PURPOSE: We determined whether polyethylenimine (PEI), a polycationic DNA carrier, can be used to deliver the interleukin (IL) 12 gene by aerosol to treat established osteosarcoma (OS) lung metastases in a nude mouse model. EXPERIMENTAL DESIGN: Tumor response was assessed using our OS lung metastases model. Treatment with aerosolized PEI containing the murine IL-12 gene (PEI:IL-12; 600 microl PEI and 2 mg IL-12) was given twice weekly for 5-6 weeks. RESULTS: Aerosol therapy for 2 weeks resulted in high expression of both the p35 and p40 subunits of IL-12 in the lungs but not in the livers of mice. Peak IL-12 mRNA expression was seen 24 h after a single aerosol PEI:IL-12 treatment. This expression gradually decreased with continued detection for up to 7 days. IL-12 protein was not detectable in plasma even after 6 weeks of aerosol therapy. The number of lung metastases in mice treated with aerosol PEI:IL-12 was decreased significantly (median, 0; range, 0-33) compared with mice that received PEI alone (median, 37.5; range, 11-125; P = 0.002). Nodule size was also significantly smaller in the aerosol PEI:IL-12 group with 87% of the nodules measuring 1 mm. Weekly aerosol PEI:IL-12 therapy was as effective as twice weekly therapy. CONCLUSIONS: Aerosol therapy resulted in selective gene expression and protein production in the tumor area. Aerosol PEI:IL-12 may avoid the systemic toxicities described previously in patients treated with i.v. IL-12. Because OS metastasizes almost exclusively to the lung, aerosol PEI:IL-12 therapy may provide a therapeutic option, which may be especially valuable.