Transport-coupled ubiquitination of the borate transporter BOR1 for its boron-dependent degradation.

Plants take up and translocate nutrients through transporters. In Arabidopsis thaliana, the borate exporter BOR1 acts as a key transporter under boron (B) limitation in the soil. Upon sufficient-B supply, BOR1 undergoes ubiquitination and is transported to the vacuole for degradation, to avoid overaccumulation of B. However, the mechanisms underlying B-sensing and ubiquitination of BOR1 are unknown. In this study, we confirmed the lysine-590 residue in the C-terminal cytosolic region of BOR1 as the direct ubiquitination site and showed that BOR1 undergoes K63-linked polyubiquitination. A forward genetic screen identified that amino acid residues located in vicinity of the substrate-binding pocket of BOR1 are essential for the vacuolar sorting. BOR1 variants that lack B-transport activity showed a significant reduction of polyubiquitination and subsequent vacuolar sorting. Coexpression of wild-type (WT) and a transport-defective variant of BOR1 in the same cells showed degradation of the WT but not the variant upon sufficient-B supply. These findings suggest that polyubiquitination of BOR1 relies on its conformational transition during the transport cycle. We propose a model in which BOR1, as a B transceptor, directly senses the B concentration and promotes its own polyubiquitination and vacuolar sorting for quick and precise maintenance of B homeostasis.

The prevention of an anomalous chromatographic behavior and the resulting successful removal of viruses from monoclonal antibody with an asymmetric charge distribution by using a membrane adsorber in highly efficient, anion-exchange chromatography in flow-through mode.

Anion exchange (AEX) chromatography in the flow-through mode is a widely employed purification process for removal of process/product-related impurities and exogenous/endogenous viruses from monoclonal antibodies (mAbs). The pH of the mobile phase for AEX chromatography is typically set at half a unit below the isoelectric point (pI) of each mAb (i.e., pI - 0.5) or lower and, in combination with a low ionic strength, these conditions are usually satisfactory for both the recovery of the mAb and removal of impurities. However, we have recently encountered a tight binding of mAb1 to AEX resins under these standard chromatographic conditions. This anomalous adsorption behavior appears to be an effect of the asymmetric charge distribution on the surface of the mAb1. We found that mAb1 did not bind to the AEX resins if the mobile phase has a much lower pH and higher ionic strength, but those conditions would not allow adequate virus removal. We predicted that the use of membrane adsorbers might provide effective mAb1 purification, since the supporting matrix has a network structure that would be less susceptible to interactions with the asymmetric charge distribution on the protein surface. We tested the Natriflo HD-Q AEX membrane adsorber under standard chromatographic conditions and found that mAb1 flowed through the membrane adsorber, resulting in successful separation from murine leukemia virus. This AEX membrane adsorber is expected to be useful for process development because mAbs can be purified under similar standard chromatographic conditions regardless of their charge distributions.

Control of polarization and tumoricidal activity of macrophages by multicellular spheroid formation.

Immune cell-based therapy is a promising approach for cancer immunotherapy. Macrophages can be used for this purpose if their tumoricidal activity and viability are properly controlled. In the present study, we aimed to enhance these properties of macrophages by constructing uniformly sized multicellular spheroids. Mouse macrophage-like J774.1 cells were selected as model macrophages, and poly(N-isopropylacrylamide)-coated polydimethylsiloxane-based microwell plates with an approximate diameter of 750µm were used to prepare J774.1 spheroids. J774.1 spheroids were successfully generated, and the viability of cells in the spheroids was over 95%. J774.1 spheroids showed higher mRNA expression of induced nitric oxide synthase, a marker of M1-type activated macrophages, than monolayered J774.1 cells. The production of reactive oxygen species was also high in J774.1 spheroids, suggesting the existence of hypoxic regions in the spheroids. J774.1 spheroids released more tumor necrosis factor-α than monolayered cells upon stimulation with lipopolysaccharide. Moreover, J774.1 spheroids in the upper compartment of the Transwell system more efficiently inhibited the proliferation of mouse adenocarcinoma colon 26 cells in its lower compartment than monolayered J774.1 cells did. These results indicate that spheroid formation can be used to increase the tumoricidal activity of macrophages for use in cell-based cancer immunotherapy.

Using size-controlled multicellular spheroids of murine adenocarcinoma cells to efficiently establish pulmonary tumors in mice.

Previous studies demonstrated that multicellular spheroids developed using polydimethylsiloxane-based microwells exhibited superior functions, such as insulin secretion from pancreatic cells, over suspended cells. To successfully apply these spheroids, the effect of spheroid size on cellular functions must be determined. In this study, using murine adenocarcinoma colon26 cells, the authors examined whether such spheroids were useful for developing tumor-bearing animal models, which requires the efficient and stable engraftment of cancer cells at implanted sites and/or metastatic sites. The authors prepared microwells with widths of 360, 450, 560, and 770 µm through a micromolding technique, and obtained colon26 spheroids with average diameters of 169, 240, 272, and 341 µm, respectively. Small and medium spheroids were subsequently used. mRNA levels of integrin ß1, CD44, and fibronectin, molecules involved in cell adhesion, increased with increasing colon26 spheroid size. Approximately 1.5 × 104 colon26 cells in suspension or in spheroids were intravenously inoculated into BALB/c mice. At 21 days after inoculation, the lung weight of both colon26 spheroid groups, especially the group injected with small spheroids, was significantly higher than that of mice in the suspended colon26 cell group. These results indicate that controlling cancer cell spheroid size is crucial for tumor development in tumor-bearing mouse models.

Dosimetric predictors of radiation-induced pericardial effusion in esophageal cancer.

PURPOSE: To evaluate the dose-volume parameters of the pericardium and heart in order to reduce the risk of radiation-induced pericardial effusion (PE) and symptomatic PE (SPE) in esophageal cancer patients treated with concurrent chemoradiotherapy. METHODS: In 86 of 303 esophageal cancer patients, follow-up CT was obtained at least 24 months after concurrent chemoradiotherapy. Correlations between clinical factors, including risk factors for cardiac disease, dosimetric factors, and the incidence of PE and SPE after radiotherapy were analyzed using Cox proportional hazard regression analysis. Significant dosimetric factors with the highest hazard ratios were investigated using zones separated according to their distance from esophagus. RESULTS: PE developed in 49 patients. Univariate analysis showed the mean heart dose, heart V5-V55, mean pericardium dose, and pericardium V5-V50 to all significantly affect the incidence of PE. Additionally, body surface area was correlated with the incidence of PE in multivariate analysis. Grade 3 and 4 SPE developed in 5 patients. The pericardium V50 and pericardium D10 significantly affected the incidence of SPE. The pericardium V50 in patients with SPE ranged from 17.1 to 21.7%. Factors affecting the incidence of SPE were the V50 of the pericardium zones within 3 cm and 4 cm of the esophagus. CONCLUSION: A wide range of radiation doses to the heart and pericardium were related to the incidence of PE. A pericardium V50 ≤ 17% is important to avoid symptomatic PE in esophageal cancer patients treated with concurrent chemoradiotherapy.

Optimization of Albumin Secretion and Metabolic Activity of Cytochrome P450 1A1 of Human Hepatoblastoma HepG2 Cells in Multicellular Spheroids by Controlling Spheroid Size.

Multicellular spheroids are useful as three-dimensional cell culture systems and for cell-based therapies. Their successful application requires an understanding of the consequences of spheroid size for cellular functions. In the present study, we prepared multicellular spheroids of different sizes using the human hepatoblastoma HepG2 cells, as hepatocytes are frequently used for in vitro drug screening and cell-based therapy. Precise polydimethylsiloxane-based microwells with widths of 360, 450, 560, and 770 µm were fabricated using a micromolding technique. Incubation of HepG2 cells in cell culture plates containing the microwells resulted in the formation of HepG2 spheroids with average diameters of 195, 320, 493, and 548 µm. The cell number per spheroid positively correlated with its diameter, and the viability of HepG2 cells was 94% or above for all samples. The smallest HepG2 spheroids showed the highest albumin secretion. On the other hand, the metabolic activity of 7-ethoxyresorufin, a fluorometric substrate for CYP1A1, increased with increasing spheroid size. These results indicate that controlling spheroid size is important when preparing HepG2 spheroids and that the size of HepG2 spheroids greatly influences the cellular function of HepG2 cells in the spheroids.

Clinicopathological correlation for the role of fluorodeoxyglucose positron emission tomography computed tomography in detection of choroidal malignant melanoma.

BACKGROUND: The purpose of this study was to redefine the role of whole-body 2-[(18)F]fluoro-2-deoxy-D-glucose (FDG) positron emission tomography fused with computed tomography (PET/CT) in the clinical diagnosis of choroidal malignant melanoma. METHODS: The study design was a retrospective case series involving 7 consecutive patients with choroidal malignant melanoma who underwent enucleation to reach the final pathological diagnosis. FDG-PET/CT was performed together with magnetic resonance imaging and ophthalmological examinations before the surgery. The area, thickness, longest diameter, and circumference of the tumor mass were measured on pathological sections, and were correlated with maximum standardized uptake values (SUVmax) of the tumors on FDG-PET/CT. RESULTS: Abnormally high uptake of FDG was noted in the affected eyes of 5 patients, but not in the eyes of 2 patients. The 5 patients with high uptake showed nodular tumors extruding into the vitreous cavity while the 2 patients with absence of uptake showed diffusely infiltrating tumors in the wide area of the choroid with or without a small mushroom-like protrusion. One patient with diffuse infiltration showed concurrent liver metastases with high uptake on PET/CT while another patient with a nodular tumor developed liver metastases a year later. The tumors with higher SUVmax had a tendency to have a wider area and greater thickness on pathological sections (ρ = 0.775, P = 0.0557, Spearman rank correlation test). CONCLUSIONS: FDG-PET/CT showed correlation of the uptake with tumor sizes but was limited in detecting diffusely infiltrating tumors in the choroid without nodular formation.