Members of the CIP4 family of proteins participate in the regulation of platelet‐derived growth factor receptor‐β‐dependent actin reorganization and migration

Background information. The F‐BAR {Fes/CIP4 [Cdc42 (cell division cycle 42)‐interacting protein 4] homology and BAR (Bin/amphiphysin/Rvs)} proteins have emerged as important co‐ordinators of signalling pathways that regulate actin assembly and membrane dynamics. The presence of the F‐BAR domain is the hallmark of this family of proteins and the CIP4 (Cdc42‐interacting protein 4) was one of the first identified vertebrate F‐BAR proteins. There are three human CIP4 paralogues, namely CIP4, FBP17 (formin‐binding protein 17) and Toca‐1 (transducer of Cdc42‐dependent actin assembly 1). The CIP4‐like proteins have been implicated in Cdc42‐dependent actin reorganization and in regulation of membrane deformation events visible as tubulation of lipid bilayers. Results. We performed side‐by‐side analyses of the three CIP4 paralogues. We found that the three CIP4‐like proteins vary in their effectiveness to catalyse membrane tubulation and actin reorganization. Moreover, we show that the CIP4‐dependent membrane tubulation is enhanced in the presence of activated Cdc42. Some F‐BAR members have been shown to have a role in the endocytosis of the EGF (epidermal growth factor) receptor and this prompted us to study the involvement of the CIP4‐like proteins in signalling of the PDGFRβ [PDGF (platelet‐derived growth factor) β‐receptor]. We found that knock‐down of CIP4‐like proteins resulted in a prolonged formation of PDGF‐induced dorsal ruffles, as well as an increased PDGF‐dependent cell migration. This was most likely a consequence of a sustained PDGFRβ activation caused by delayed internalization of the receptor in the cells treated with siRNA (small interfering RNA) specific for the CIP4‐like proteins. Conclusions. Our findings show that CIP4‐like proteins induced membrane tubulation downstream of Cdc42 and that they have important roles in PDGF‐dependent actin reorganization and cell migration by regulating internalization and activity of the PDGFRβ. Moreover, the results suggest an important role for the CIP4‐like proteins in the regulation of the activity of the PDGFRβ.     

Overexpression of enzymes involved in glutathione synthesis enhances tolerance to organic pollutants in Brassica juncea

Transgenic Indian mustard (Brassica juncea) overexpressing y-glutamylcysteine synthetase (ECS) or glutathione synthetase (GS) were shown previously to have two-fold higher levels of glutathione and total nonprotein thiols, as well as enhanced cadmium tolerance and accumulation. Here, the hypothesis was tested that these transgenics have enhanced tolerance to organic pollutants, based on the reasoning that many organic xenobiotics are detoxified via conjugation to glutathione. Both the ECS and GS transgenics showed enhanced tolerance to atrazine: while root growth of wildtype seedlings was inhibited 50% by 100 mg L(-1) atrazine, ECS and GS root growth was inhibited 20-30% (P < 0.05). The tolerance of the transgenics to CDNB (1-chloro-2,4-dinitrobenzene). metolachlor, and phenanthrene was also somewhat higher than wild type, but these differences were not as pronounced. Each of the organics treatments significantly enhanced total nonprotein thiol levels in all plant types (2 to 12-fold). Overall, these results suggest that GSH biosynthesis is limiting for atrazine detoxification in Indian mustard and that overexpression of enzymes involved in GSH biosynthesis offers a promising approach to create plants with the enhanced capacity to tolerate not only heavy metals, but also certain organics.     

RIP1 kinase activity promotes steatohepatitis through mediating cell death and inflammation in macrophages

Hepatocyte cell death and liver inflammation have been well recognized as central characteristics of nonalcoholic steatohepatitis (NASH), however, the underlying molecular basis remains elusive. The kinase receptor-interacting protein 1 (RIP1) is a multitasking molecule with distinct functions in regulating apoptosis, necroptosis, and inflammation. Dissecting the role of RIP1 distinct functions in different pathophysiology has absorbed huge research enthusiasm. Wild-type and RIP1 kinase-dead (Rip1^K45A/K45A) mice were fed with high-fat diet (HFD) to investigate the role of RIP1 kinase activity in the pathogenesis of NASH. Rip1^K45A/K45A mice exhibited significantly alleviated NASH phenotype of hepatic steatosis, liver damage, fibrosis as well as reduced hepatic cell death and inflammation compared to WT mice. Our results also indicated that both in vivo lipotoxicity and in vitro saturated fatty acids (palmitic acid) treatment were able to induce the kinase activation of RIP1 in liver macrophages. RIP1 kinase was required for mediating inflammasome activation, apoptotic and necrotic cell death induced by palmitic acid in both bone marrow-derived macrophage and mouse primary Kupffer cells. Results from chimeric mice established through lethal irradiation and bone marrow transplantation further confirmed that the RIP1 kinase in hematopoietic-derived macrophages contributed mostly to the disease progression in NASH. Consistent with murine models, we also found that RIP1 kinase was markedly activated in human NASH, and the kinase activation mainly occurred in liver macrophages as indicated by immunofluorescence double staining. In summary, our study indicated that RIP1 kinase was phosphorylated and activated mainly in liver macrophages in both experimental and clinical NASH. We provided direct genetic evidence that the kinase activity of RIP1 especially in hematopoietic-derived macrophages contributes to the pathogenesis of NASH, through mediating inflammasome activation and cell death induction. Macrophage RIP1 kinase represents a specific and potential therapeutic target for NASH.Subject terms: Cell death and immune response, Chronic inflammation     

Phase diagram of soybean phosphatidylcholine-diacylglycerol-water studied by x-ray diffraction and 31P- and pulsed field gradient 1H-NMR: evidence for reversed micelles in the cubic phase.

The phase equilibria of the system soybean phosphatidylcholine, diacylglycerol, and water has been determined using a combination of classical methods together with x-ray diffraction and NMR techniques. In particular, the extent of the phase regions of the lamellar, the reversed hexagonal, and the cubic phases have been determined. By pulsed field gradient 1H-NMR, the diffusion coefficients of all three components in a cubic phase composed of soybean phosphatidylcholine, diacylglycerol, and heavy water have been determined at 25 and 59 degrees C and also for the corresponding cubic phase composed of the chemically more well defined synthetic components 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC), 1,2-dioleoylglycerol (DOG), and heavy water. The extension of the phase region of the cubic phase did not seem to change appreciably for the two ternary systems studied. The translational diffusion coefficient of DOPC in this cubic phase is more than an order of magnitude smaller (3 x 10(-13) m2 s-1, 59 degrees C) than the lateral diffusion coefficient of DOPC in an oriented lipid bilayer (5 x 10(-12) m2 s-1, 35 degrees C), whereas the diffusion coefficients of water and DOG were found to be about two orders of magnitude larger than DOPC at 59 degrees C. It is concluded that the cubic phase is built built up of closed reversed micelles in accordance with the suggestion from previous x-ray diffraction studies.     

The intranuclear organization of normal, hemizygous and excision-deficient rRNA genes during developmental amplification in Tetrahymena thermophila

In the ciliated protozoan, Tetrahymena thermophila, the diploid germinal micronucleus contains two allelic copies of the gene for ribosomal RNA (rDNA). During genesis of new somatic macronuclei the germline rDNA gene is excised by developmentally programmed chromosome breakage and preferentially amplified to ∼9,000 copies. We have studied this process by fluorescence in situ hybridization. We find that initially rDNA amplification is restricted to two separate and highly confined regions of the nucleus. Analysis of nuclei that are hemizygous for the rDNA locus reveals that each focus of hybridization is derived from a single allele of the rDNA. As rDNA amplification progresses these two foci of hybridization disperse and spread throughout the macronucleus, eventually forming ∼100–500 new nucleoli. These events are correlated with morphologically distinct developmental stages. We investigated the amplification of the C3 allele of the rDNA that confers a replication advantage over the B allele during vegetative propagation, and find no evidence for preferential amplification of the C3 early in rDNA maturation. We also show that the rmm 11 rDNA mutant allele, which is defective for developmentally programmed rDNA excision, can be amplified during the two-foci stage in mutant homozygotes and heterozygotes, but fails to amplify further and disperse into multiple nucleoli. These data indicate that amplification of the rmm 11 allele is not delayed during the initial rounds of amplification, and suggest that efficient excision is not required for this amplification to occur. We propose that rDNA amplification is a two-step process. First, the two rDNA alleles are independently amplified, while allelic copies remain closely associated. Later, copies of the rDNA disperse and are further amplified, presumably because rDNA excision has occurred, generating fully mature rDNA minichromosomes that are able to replicate to high copy number. Received: 21 February 1997; in revised form: 21 April 1997 / Accepted: 5 May 1997     

Phase equilibria in four lysophosphatidylcholine/water systems. Exceptional behaviour of 1-palmitoyl-glycerophosphocholine

The phase equilibria in four lysophosphatidylcholine/water systems were investigated at different temperatures. Each of the 1-palmitoyl-, 1-stearoyl-, 1-oleoyl- and 1-linoleoyl-sn-glycero-3-phosphocholines was dispersed in heavy water at different concentrations. The phase structures were determined by 2H-, 14N- and 31P-NMR, polarization microscopy and low-angle X-ray diffraction. The phase diagrams of the oleoyl and linoleoyl systems were quite similar. At room temperature and with decreasing water content the isotropic micellar solution was followed by a hexagonal phase and then a cubic phase. Finally the lamellar phase appeared before the region of hydrated crystals. The same sequence of phases was observed in the stearoyl system at elevated temperatures. The palmitoyl system differed from the others: here a cubic phase followed after the micellar solution, then came a hexagonal phase and after this a lamellar phase. In general the lysophosphatidylcholines seem to behave similarly to the many soaps and detergents as they show the same sequence of isotropic micellar solution, hexagonal phase, lamellar phase with interspersed cubic phases. The presently established phase diagrams demonstrate that the major lysophosphatidylcholines which may be generated by phospholipase A2 in mammalian cell membranes, viz. 1-palmitoyl- and 1-stearoyl-glycerophosphocholines differ greatly in their packing properties. The extraordinary ability of 1-palmitoyl-glycerophosphocholine to form a cubic phase in equilibrium with a micellar solution is of particular interest with regard to the possible occurrence of cubic structures in biomembranes during the process of fusion.     

Amphiphile diffusion in model membrane systems studied by pulsed NMR

The translational diffusion of the amphiphilic molecules in a number of lyotropic liquid crystalline phases has been measured with the pulsed NMR pulsed magnetic field gradient method. The amphiphiles studied were soaps, monoglycerids and lecithins. Measurements were performed both for oriented lamellar and for cubic phases. The order of magnitude of the diffusion coefficients was found to be the same as in neat liquids of analogous compounds. It was also found that the difussion coefficient depend markedly on the amphiphile end group in a way that parallels the area per polar head group as determined in X-ray studies. When corrections for geometrical factors has been made the diffusion rate is approximately equal in cubic and lamellar phases containing the same amphiphile.