Quantitative morphology of renal cortical structures during compensatory hypertrophy

The compensatory hypertrophy in different renal cortical structures was studied in rats 10 and 21 days after unilateral nephrectomy (UNX). Quantitative morphological/stereological analysis revealed significant increases in total renal cortical volume - 33% on day 10 and 48% on day 21 - after UNX. These changes were paralleled by significant increments in the volumes of proximal convoluted tubule (PCT, 55%), distal convoluted tubule (DCT, 114%), and cortical collecting duct (CCD, 106%) segments on day 10. The corresponding changes on day 21 were 76, 122, and 212%, respectively. These alterations were accompanied by increases in segment length; 3% PCT, 23% DCT, and 50% CCD on day 10 and 9% PCT, 30% DCT, and 142% CCD on day 21 after UNX. The total luminal and basolateral cell membrane surface areas also exhibited a time-dependent increase after UNX. The increments in both luminal and basolateral membrane domains in PCT and DCT after 10 days were not significant, but reached significance after 21 days (PCT: luminal membrane 21%, basolateral membrane 63%; DCT: luminal membrane 98%, basolateral membrane 63%). In contrast, CCD membrane areas had increased substantially already 10 days after UNX (luminal membrane 92%, basolateral membrane 71%). It declined subsequently by day 21 (luminal membrane 57%, basolateral membrane 32%). The cell rubidium concentration after a 30-second rubidium infusion, an index of Na-K-ATPase activity, as well as sodium concentrations were unaltered in cells of all nephron segments investigated. Altogether the stereological analysis shows that the compensatory increase in organ volume can be attributed primarily to an increase in nephron epithelial volume. The PCT responds with `radial' hypertrophy (thickening of the tubular epithelial wall), while the DCT undergoes `length' hypertrophy (increase of tubular length without thickening of the tubular wall and without an increase in number of cells). This type of hypertrophy is especially prominent on day 21 after UNX for the CCD which doubles in length. Only on day 10 does the CCD seem to respond with hyperplasia. Adaptive changes in response to UNX develop gradually. Only a few of the morphological parameters studied had completed their change by 10 days, the majority required longer

Photolysis of Hydrophobic Vitamin B12 Derivatives Covalently Bound to Lipid in Aqueous Media

An alkyl ligand coordinated to hydrophobic vitamin B12 derivatives covalently bound to N,N-dihexadecyl-Nα-[6-(trimethylammonio)hexanoyl]-L-aspartamide bromide underwent a novel bromination reaction along with its rearrangement in the single-walled vesicle of N,N-dihexadecyl-Nα-[6-(trimethylammonio)hexanoyl]-L-alaninamide bromide under photolysis conditions

Inhibition of angiotensin-converting enzyme modulates structural and functional adaptation to loop diuretic-induced diuresis

Inhibition of angiotensin-converting enzyme modulates structural and functional adaptation to loop diuretic-induced diuresis. The roles of elevated cell sodium concentrations and the angiotensin-aldosterone system (AAS) in the structural and functional adaptation of the distal tubule and collecting duct system to a chronic increase of sodium delivery were examined using electron microprobe and quantitative morphologic/stereologic analyses. Studies were performed on rats given the loop diuretic torasemide acutely (20 min) or chronically (12 days), either alone or in combination with the angiotensin-converting enzyme (ACE) inhibitor, enalapril. In the sodium-absorbing cells of the distal tubule and cortical collecting duct–that is, in distal convoluted tubule (DCT), connecting tubule (CNT) and principal cells–an acute increase in sodium delivery caused a significant rise in intracellular sodium concentration and rubidium uptake, the latter an index of in vivo Na,K(Rb)-ATPase activity. The elevated cell sodium concentrations returned to, or close to, control values during chronic torasemide treatment. Intracellular rubidium concentrations, measured after a 30-second rubidium exposure, were not different from controls in DCT and CNT cells but were still higher in principal cells. Since, however, the distribution space for rubidium was significantly increased in chronic torasemide animals, rubidium uptake, and hence Na,K-ATPase activity, must have increased in proportion to cell volume in DCT and CNT cells, but more than proportionately in principal cells. When ACE was inhibited during chronic torasemide, the epithelial volume of DCT and cortical collecting duct (CCD) was increased mainly by lengthening and not, as was the case in rats given torasemide alone, by thickening of the tubule wall. Adaptation of the proximal tubule exclusively by lengthening was not affected by inhibition of the ACE. These data indicate that changes in cell ion composition may participate in initiating cell processes leading to adaptation of distal nephron segments to chronically increased salt delivery. Inhibition of the ACE reverses the torasemide-induced increase in apparent Na pump density in principal cells and seems to shift the relationship between hypertrophy and hyperplasia noted in DCT and CCD after chronic torasemide in favor of hyerplasia

Cannabinoids inhibit peptidoglycan-induced phosphorylation of NF-κB and cell growth in U87MG human malignant glioma cells

Nuclear factor (NF)-κB is the key transcription factor involved in the inflammatory responses, and its activation aggravates tumors. Peptidoglycan (PGN), a main cell wall component of Gram-positive bacteria, stimulates Toll-like receptor 2 (TLR-2) and activates a number of inflammatory pathways, including NF-κB. Cannabinoids have been reported to exert anti-inflammatory and antitumor effects. The mechanisms underlying these actions, however, are largely unknown. The purpose of this study was to investigate whether cannabinoids can suppress the PGN-induced activation of NF-κB and cell growth via cannabinoid receptors in U87MG human malignant glioma cells. PGN treatment induced the phosphorylation of NF-κB and cell proliferation in a concentration-dependent manner. The main endocannabinoid, 2-arachidonoylglycerol, prevented the PGN-induced phosphorylation of NF-κB, which was reversed by the CB1 cannabinoid receptor antagonist, AM281. The synthetic cannabinoid, WIN55,212-2, abolished the PGN-activated cell growth, and this effect was reversed by AM281. The preferential expression of CB1 rather than CB2 receptors in these cells was confirmed by reverse transcription-mediated polymerase chain reaction experiments and the observation that the WIN55,212-2-induced morphological changes were completely reversed by AM281 but not by the CB2 antagonist, AM630. Our finding that cannabinoids suppress the NF-κB inflammatory pathway and cell growth via CB1 receptors in glioma cells provides evidence for the therapeutic potential of targeting cannabinoid receptors for the treatment of inflammation-dependent tumor progression.Thesis of Ryosuke Echigo / 越後 亮介 博士論文 金沢大学医薬保健学総合研究科（保健学専攻

Mammalian Lgl Forms a Protein Complex with PAR-6 and aPKC Independently of PAR-3 to Regulate Epithelial Cell Polarity

AbstractBackground: Epithelial cells have apicobasal polarity and an asymmetric junctional complex that provides the bases for development and tissue maintenance. In both vertebrates and invertebrates, the evolutionarily conserved protein complex, PAR-6/aPKC/PAR-3, localizes to the subapical region and plays critical roles in the establishment of a junctional complex and cell polarity. In Drosophila, another set of proteins called tumor suppressors, such as Lgl, which localize separately to the basolateral membrane domain but genetically interact with the subapical proteins, also contribute to the establishment of cell polarity. However, how physically separated proteins interact remains to be clarified.Results: We show that mammalian Lgl competes for PAR-3 in forming an independent complex with PAR-6/aPKC. During cell polarization, mLgl initially colocalizes with PAR-6/aPKC at the cell-cell contact region and is phosphorylated by aPKC, followed by segregation from apical PAR-6/aPKC to the basolateral membrane after cells are polarized. Overexpression studies establish that increased amounts of the mLgl/PAR-6/aPKC complex suppress the formation of epithelial junctions; this contrasts with the previous observation that the complex containing PAR-3 promotes it.Conclusions: These results indicate that PAR-6/aPKC selectively interacts with either mLgl or PAR-3 under the control of aPKC activity to regulate epithelial cell polarity

Laparoscopic Findings of Rare Pediatric Inguinal Hernias

Pediatric inguinal hernias are caused to the patency of the processus vaginalis (PPV). The principle for the repair of indirect inguinal hernias in children consists of complete ligation of the PPV. Laparoscopic percutaneous extraperitoneal closure (LPEC) has spread rapidly since it was reported by some groups from around 1998, and the number of institutions adopting this method as a standard procedure for pediatric inguinal hernia is increasing in Japan. Since the closure of PPV by laparoscopic surgery is popular, rare hernias in children can be observed from the abdominal cavity. We present the laparoscopic findings of rare pediatric inguinal hernias and report their experience

純チタンの鋳造性に関する研究(第4報)通気性の低い鋳型への鋳造

The purpose of this study was to evaluate the influence of casting molds with low permeability on the castability of pure titanium with an all directional pressured type casting machine. Two types of phosphate bonded casting molds were used, T-INVEST and T-INVEST C&B. We reported high performance of castability of pure titanium with an all directional pressured type casting machine, if the permeability of the investment was lower as possible. Specially prepared metal sealed rings to decrease gas permeability of casting mold were used. Two sizes of sprue condition were prepared, 1.26 and 1.48mm, under a casting pressure of 8kgf/cm^2. Five sizes of casting molds were prepared with mold diameters of 25, 35,45,55 and 65mm. The following results were obtained: A high percentage of castability was gained in T-INVEST using a high gas permeability casting mold with the sealed ring. A low percentage of castability was gained in T-INVEST C&B using a low gas permeability casting mold with the sealed ring. Back pressure action in the casting mold of T-INVEST C&B seemed to produce negative effects regarding the castability. These results indicated that the sealed ring was effective to promote pure titanium castability with a mold of high permeability