Cooperative and selective roles of the WW domains of the yeast Nedd4-like ubiquitin ligase Rsp5 in the recognition of the arrestin-like adaptors Bul1 and Bul2.

The ubiquitin ligase Rsp5, which is the only yeast Saccharomyces cerevisiae member of the Nedd4-family, recognizes and ubiquitinates various substrate proteins through the functions of three conserved WW domains. To elucidate the role of each WW domain in endocytosis of the general amino acid permease Gap1 via interaction with the arrestin-like adaptor proteins Bul1 and Bul2 (Bul1/2), we investigated the effects of the double mutations that abrogate the recognition of PY motifs on target proteins (rsp5(W257F/P260A), rsp5(W359F/P362A), and rsp5(W415F/P418A)) and the alanine substitutions of the conserved threonine residues that are regarded as putative phosphorylation sites (rsp5(T255A), RSP5(T357A), and rsp5(T413A)), both of which are located within each WW domain. The rsp5(W257F/P260A), rsp5(W359F/P362A), and rsp5(W415F/P418A) mutations increased sensitivity to the proline analog azetidine-2-carboxylate (AZC), defective endocytosis of Gap1, and impaired interactions with Bul1. These results demonstrate that molecular recognition by each WW domain is responsible for the cooperative interaction with Bul1. Intriguingly, the RSP5(T357A) mutation enhanced AZC tolerance and endocytosis of Gap1, although rsp5(T255A) and rsp5(T413A) decreased both of them. While rsp5(T255A), RSP5(T357A), and rsp5(T413A) impaired the interaction of Rsp5 with Bul1, the RSP5(T357A) mutation specifically augmented the interaction with Bul2. The AZC tolerance enhanced by RSP5(T357A) was fully abolished by combining with each of the rsp5(W257F/P260A), rsp5(W359F/P362A), or rsp5(W415F/P418A) mutations. It was thus suggested that Thr357 in the WW2 domain has a unique role in preventing from the constitutive activation of Bul1/2-mediated endocytosis of Gap1. Taken together, our results highlight the cooperative and specific roles of WW domains in the regulation of Bul1/2-mediated cellular events.

Quality control of plasma membrane proteins by Saccharomyces cerevisiae Nedd4-like ubiquitin ligase Rsp5p under environmental stress conditions.

In Saccharomyces cerevisiae, when a rich nitrogen source such as ammonium is added to the culture medium, the general amino acid permease Gap1p is ubiquitinated by the yeast Nedd4-like ubiquitin ligase Rsp5p, followed by its endocytosis to the vacuole. The arrestin-like Bul1/2p adaptors for Rsp5p specifically mediate this process. In this study, to investigate the downregulation of Gap1p in response to environmental stresses, we determined the intracellular trafficking of Gap1p under various stress conditions. An increase in the extracellular ethanol concentration induced ubiquitination and trafficking of Gap1p from the plasma membrane to the vacuole in wild-type cells, whereas Gap1p remained stable on the plasma membrane under the same conditions in rsp5(A401E) and Δend3 cells. A (14)C-labeled citrulline uptake assay using a nonubiquitinated form of Gap1p (Gap1p(K9R/K16R)) revealed that ethanol stress caused a dramatic decrease of Gap1p activity. These results suggest that Gap1p is inactivated and ubiquitinated by Rsp5p for endocytosis when S. cerevisiae cells are exposed to a high concentration of ethanol. It is noteworthy that this endocytosis occurs in a Bul1/2p-independent manner, whereas ammonium-triggered downregulation of Gap1p was almost completely inhibited in Δbul1/2 cells. We also found that other environmental stresses, such as high temperature, H2O2, and LiCl, also promoted endocytosis of Gap1p. Similar intracellular trafficking caused by ethanol occurred in other plasma membrane proteins (Agp1p, Tat2p, and Gnp1p). Our findings suggest that stress-induced quality control is a common process requiring Rsp5p for plasma membrane proteins in yeast.

Phosphorylation of a conserved Thr357 in yeast Nedd4-like ubiquitin ligase Rsp5 is involved in down-regulation of the general amino acid permease Gap1.

Rsp5, an essential HECT-type ubiquitin ligase, is the only yeast Saccharomyces cerevisiae member of the Nedd4 family. Rsp5 triggers the ubiquitination-dependent endocytosis of the general amino acid permease Gap1 in response to a good nitrogen source. Previously, we showed that the Thr357Ala/Lys764Glu variant Rsp5 induces the constitutive inactivation of Gap1, which is mainly involved in uptake of the toxic proline analogue, l-azetidine-2-carboxylate (AZC). Here, our experimental results indicated that the Thr357Ala substitution in the substrate-recognizing WW2 domain of Rsp5 constitutively causes the down-regulation of four proline permeases (Gap1, Put4, Agp1 and Gnp1), leading to AZC tolerance to yeast cells. In RSP5(T357A) cells, Gap1 was highly ubiquitinated and constantly delivered to the vacuole from the Golgi without sorting to the plasma membrane. Analyses of RSP5 mutants using antiphosphopeptide antibody suggest that Thr phosphorylation occurred in all three WW domains and, interestingly, that Thr357 in the WW2 domain was phosphorylated, in agreement with the in vitro result for the mouse Rsp5 orthologue. Furthermore, the phosphorylation-mimic mutant (Thr357Asp) showed strong sensitivity to AZC. From these results, we propose a possible mechanism involved in the regulation of Rsp5 activity for Gap1 down-regulation via the phosphorylation of a conserved Thr357 in the Nedd4 family.

Vitamin B(12) promotes Cx40 and HCN4 gene expression at an early stage of cardiomyocyte differentiation.

Vitamin B(12) (VB(12)) was investigated for its ability to influence the expression of genes required for cardiac cell differentiation from mouse embryonic stem cells. When VB(12) (0.5 mM) was added to the medium on day 3 of culture, the levels of Cx40 and HCN4 expression increased over those in the control, 2 to 3 days before the start of cardiomyocyte beating. In contrast, the expression levels of alpha-MHC, MLC-2a, and MLC-2v were almost the same as those of the control throughout the culture period. Our results suggest that VB(12) is involved in the promotion of the intercellular conducting system rather than the generation of contractile proteins.

Engineering of the yeast ubiquitin ligase Rsp5: isolation of a new variant that induces constitutive inactivation of the general amino acid permease Gap1.

Rsp5 is an essential ubiquitin-protein ligase in Saccharomyces cerevisiae. We found previously that the Ala401Glu rsp5 mutant is hypersensitive to various stresses that induce protein misfolding, suggesting that Rsp5 is a key enzyme for yeast cell growth under stress conditions. To isolate new Rsp5 variants as suppressors of the A401E mutant, PCR random mutagenesis was used in the rsp5(A401E) gene, and the mutagenized plasmid library was introduced into rsp5(A401E) cells. As a phenotypic suppressor of rsp5(A401E) cells, we isolated a quadruple variant (Thr357Ala/Glu401Gly/Lys764Glu/Glu767Gly) on a minimal medium containing the toxic proline analogue azetidine-2-carboxylate (AZC). Site-directed mutagenesis experiments showed that the rsp5(T357A/K764E) cells were much more tolerant to AZC than the wild-type cells, due to the smaller amounts of intracellular AZC. However, the T357A/K764E variant Rsp5 did not reverse the hypersensitivity of rsp5(A401E) cells to other stresses such as high growth temperature, ethanol, and freezing treatment. Interestingly, immunoblot and localization analyses indicated that the general amino acid permease Gap1, which is involved in AZC uptake, was absent on the plasma membrane and degraded in the vacuole of rsp5(T357A/K764E) cells before the addition of ammonium ions. These results suggest that the T357A/K764E variant Rsp5 induces constitutive inactivation of Gap1.

Generation of a multi-layer muscle fiber sheet from mouse ES cells by the spermine action at specific timing and concentration.

Here, we show that spermine can induce the generation of a multi-layer muscle fiber sheet (MMFS) in mouse embryonic stem (ES) cells. ES cells were cultured by the hanging drop method and embryoid bodies (EBs) that formed after 2 days of culture were transferred to a 24-well dish (1 EB/well) containing differentiation medium. EBs cultured in the absence of spermine showed no evidence of differentiation of contractile muscle fibers. In contrast, the addition of spermine (0.5-1.0 mM) for 24 hr on day 12 of culture was found to result in the formation of contractile muscle fibers around the EBs by day 17, with further differentiation into MMFS by day 32. We found that spermine could only induce muscle cell differentiation in EBs during a limited period of culture. Moreover, high concentrations of spermine inhibited muscle fiber generation. Histochemical analysis showed that the MMFS induced by spermine had a heterogeneous architecture. Heart muscle cells appeared to be predominant in some regions, as evidenced by the expression of the markers atrial natriuretic peptide (ANP) and connexin 40 (Cx40), while skeletal muscle appeared to predominate in other regions, as indicated by the expression of MyoD. DNA array analysis showed specific enhancement of expression of muscle cell genes, supporting our conclusion that spermine induces differentiation of muscle cells in vitro.

[Effect of Panax ginseng components on the differentiation of mouse embryonic stem cells into cardiac-like cells].

Bioactive compounds that may control the specific differentiation from mouse embryonic stem (ES) cells into cardiac-like cells have been screened from herbal medicines. Among seven preparations, Panax ginseng was found to promote the differentiation into beating cells and to sustain their beating for longer than the control. Active compounds were found in its water-soluble fraction. Although they were not isolated, their candidates were surveyed in 42 compounds selected from the database of P. ginseng. Finally we found that vitamin B12 (VB12) and methionine were active. VB12 accelerated the differentiation into beating cells and made the beating rate constantly 100%. Moreover, VB12 was effective in the recovery of beating that was inhibited by spermine action. The mechanism of action of VB12 is discussed in termo of the relevance of intercellular electrical signal transduction.

Pulmonary sclerosing hemangioma associated with familial adenomatous polyposis.

A 45-year-old woman presented with asymptomatic solid tumor in the lower right lobe of the lung. Histologically, the tumor comprised a monolayer of surface cells and round stromal cells displaying sclerotic areas. Immunohistochemical studies suggested a diagnosis of sclerosing hemangioma. Interestingly, morular lesions were also observed. Analyses of the gastrointestinal (GI) tract showed mild familial adenomatous polyposis (FAP) and numerous fundal gland polyps, indicating attenuated FAP (AFAP). All components of the sclerosing hemangioma displayed aberrant nuclear and cytoplasmic expression of beta-catenin. However, such findings were much weaker in adenomas of the GI tract and were barely observed in fundal gland polyps. These results strongly suggest an association between sclerosing hemangioma and the AFAP. To the best of our knowledge, this is only the second report of lung tumor associated with FAP and is the first describing an association with sclerosing hemangioma. A new category of FAP-associated lung tumors may be indicated.