Identification of a multiprotein "motor" complex binding to water channel aquaporin-2

Targeted positioning of water channel aquaporin-2 (AQP2) strictly regulates body water homeostasis. Trafficking of AQP2 to the apical membrane is critical to the reabsorption of water in renal collecting ducts. Recently, we have identified for the first time proteins which directly bind to AQP2: SPA-1, a GTPase-activating protein for Rap1, and cytoskeletal protein actin. Based on these findings, we have speculated the existence of a multiprotein complex which includes AQP2, SPA-1, and actin, for providing the mechanism which generates force and motion in AQP2 trafficking. To clarify the proteins comprising the complex, a large amount of AQP2-associated protein complex was isolated from the extract of rat kidney papilla using immunoaffinity column coupled with anti-AQP2 antibody and was analyzed by matrix-assisted laser desorption-ionization time-of-flight mass spectrometry (MALDI-TOF MS). In addition to SPA-1 and actin, 11 proteins were identified using this method: ionized calcium binding adapter molecule 2, myosin regulatory light chain smooth muscle isoforms 2-A and 2-B, alpha-tropomyosin 5b, annexin A2 and A6, scinderin, gelsolin, alpha-actinin 4, alpha-II spectrin, and myosin heavy chain nonmuscle type A. Our findings show for the first time an AQP2-binding multiprotein "force generator" complex. This multiprotein complex may provide the machinery of driving AQP2 movement.     

Genetically modified rice seeds accumulating GLP-1 analogue stimulate insulin secretion from a mouse pancreatic beta-cell line

Glucagon-like peptide-1 (7-36) amide (GLP-1) is the most potent physiological insulinotropic hormone in humans. We produced large amounts of a GLP-1 analogue, [Ser8, Gln26, Asp34]-GLP-1, which is resistant to trypsin-digestion, as part of a chimeric rice seed storage protein, a 26 kDa globulin, in genetically modified rice seeds. Junction sites between GLP-1 analogue and globulin were replaced by tryptic cleavage sites. The highest level of GLP-1 analogue accumulation was approximately 20-50 microg per seed. We found that GLP-1 analogue derived from trypsin-digested genetically modified rice seeds stimulated insulin secretion from a mouse pancreatic beta-cell line, MIN6.     

Altered proteolytic activities of ADAMTS-4 expressed by C-terminal processing

ADAMTS-4 (a disintegrin and metalloprotease with thrombospondin motifs) is a multidomain metalloproteinase belonging to the reprolysin family. The enzyme cleaves aggrecan core protein at several sites. Here we report that the non-catalytic ancillary domains of the enzyme play a major role in regulating aggrecanase activity, with the C-terminal spacer domain masking the general proteolytic activity. Expressing a series of domain deletion mutants in mammalian cells and examining their aggrecan-degrading and general proteolytic activities, we found that full-length ADAMTS-4 of 70 kDa was the most effective aggrecanase, but it exhibited little activity against the Glu(373)-Ala(374) bond, the site originally characterized as a signature of aggrecanase activity. Little activity was detected against reduced and carboxymethylated transferrin (Cm-Tf), a general proteinase substrate. However, it readily cleaved the Glu(1480)-Gly(1481) bond in the chondroitin sulfate-rich region of aggrecan. Of the constructed mutants, the C-terminal spacer domain deletion mutant more effectively hydrolyzed both the Glu(373)-Ala(374) and Glu(1480)-Gly(1481) bonds. It also revealed new activities against Cm-Tf, fibromodulin, and decorin. Further deletion of the cysteine-rich domain reduced the aggrecanase activity by 80% but did not alter the activity against Cm-Tf or fibromodulin. Further removal of the thrombospondin type I domain drastically reduced all tested proteolytic activities, and very limited enzymatic activity was detected with the catalytic domain. Full-length ADAMTS-4 binds to pericellular and extracellular matrix, but deletion of the spacer domain releases the enzyme. ADAMTS-4 lacking the spacer domain has promiscuous substrate specificity considerably different from that previously reported for aggrecan core protein. Finding of ADAMTS-4 in the interleukin-1alpha-treated porcine articular cartilage primarily as a 46-kDa form suggests that it exhibits a broader substrate spectrum in the tissue than originally considered.     

Differential modulation of NR1-NR2A and NR1-NR2B subtypes of NMDA receptor by PDZ domain-containing proteins

The PSD-95/Dlg/ZO-1 (PDZ) domain-containing proteins MALS and PSD-95 localize to post-synaptic densities and bind the COOH-termini of NR2 subunits of the NMDA receptor. The effects of MALS-2 and PSD-95 on the channel activity of NMDA receptors were compared using the Xenopus oocyte expression system. Both MALS-2 and PSD-95 increased the current response of the NR1-NR2B receptor to l-glutamate. In contrast, the current response of the NR1-NR2A receptor was increased by PSD-95 but not by MALS-2. MALS-2 had no effect either on the potentiation of NR1-NR2A or NR1-NR2B channel activity by protein kinase C, or on Src-mediated potentiation of NR1-NR2A activity, whereas PSD-95 almost completely inhibited the effects of these protein kinases. Construction of chimeras of MALS-2 and PSD-95 revealed that the first two PDZ domains and two NH(2)-terminal cysteine residues are essential for the inhibitory effects of PSD-95 on protein kinase C-mediated potentiation of NR1-NR2A and NR1-NR2B channel activity, respectively. The second of the three PDZ domains of PSD-95 was required for its inhibition of Src-mediated potentiation of NR1-NR2A activity. These results indicate that the NR1-NR2A and NR1-NR2B receptors are modulated differentially by MALS-2 and PSD-95, and that similar regulatory effects of PSD-95 on these receptors are achieved by distinct mechanisms.     

Spatial distribution and seasonal changes of pesticides in Lake Biwa,Japan

The spatial distribution and seasonal variation in the concentrations in Lake Biwa of pesticides used in paddy fields were studied. Lake Biwa is the largest lake in Japan and is a recognized water resource for 14 million people in the Kinki district. Samples were collected nine times from April to December 2001 at ten sites within the lake and at the mouths of six influent rivers. Weekly sampling was also carried out at a single site on an effluent river. Among the 20 pesticides analyzed, the detection frequencies in surface water were almost 100% for simetryn, bromobutide, and isoprothiolane; around 75% for molinate and pyroquilon; around 30% for three herbicides and one fungicide; and almost zero for the remaining substances. The maximum concentrations of pesticides detected frequently in the lake were in the range 0.1–0.4µgl^–1. The occurrence of a few pesticides below the thermocline may be explained by thermal stratification and vertical circulation. Although the thermocline suppressed vertical diffusion in spring and summer during pesticide application periods, a few pesticides remaining at the surface of the lake in winter were transported to the hypolimnion by vertical circulation and remained there even after the reestablishment of the thermocline. The half-lives of pesticides in the lake were estimated to be more than a year for simetryn, half a year for bromobutide, 1.5 months for molinate, and 1 month for dimepiperate. The main cause of elimination for molinate and dimepiperate was estimated to be degradation, that for simetryn was outflow, and for bromobutide both degradation and outflow were significant.     

Synthesis of heterotrimeric collagen models containing Arg residues in Y-positions and analysis of their conformational stability

An Arg residue incorporated into the Y-position of collagenous host-guest peptide Ac-(Gly-Pro-Hyp)(3)-Gly-Pro-Y-(Gly-Pro-Hyp)(4)-Gly-Gly-NH(2) is reported to stabilize the triple helical structure as well as a 4(R)-hydroxyproline (Hyp) residue. Here, we synthesized heterotrimeric collagen models containing Arg in Y-positions utilizing the cystine knot strategy. Analysis of their thermal transition temperatures using circular dichroism spectrometry demonstrated unexpected decrease in the triple helical stability as the number of Arg increased. The obtained results indicated that an Arg residue in a Y-position is not always an equivalent of a Hyp residue, and that it possesses a potential helix destabilizing effect.     

IDPN-Induced Monoamine and Hydroxyl Radical Changes in the Rat Brain

--iminodipropionitrile (IDPN)-induced monoamine and hydroxyl radical changes in the rat brains were studied. IDPN caused decreases in 5-HT and 5-HIAA levels in all brain regions, strongly indicating that IDPN's neurotoxicity primarily affects 5-HT containing neurons. Dopamine and its metabolites' levels decreased in the some regions, most likely due to depression of dopamine metabolic turnover. Our results more clearly demonstrate IDPN-induced monoamine alterations in the rat brain more than previous reports. To clarify one of the pathogenesis of IDPN-induced neurological disorders, we measured hydroxyl radical levels. 2,3-DHBA increased at 1st day, and decreased in some regions at 7th days after discontinuing IDPN. We conclude, hydroxyl radical formation causes neuronal damage, and monoamine changes contribute to IDPN-induced neurological disorder.