Ca2+/Calmodulin induces translocation of membrane-associated TSC2 to the nucleus where it suppresses CYP24A1 expression.

Tuberous sclerosis complex 2 (TSC2) is a tumor-suppressor protein. A loss of TSC2 function induces hyperactivation of mechanistic target of rapamycin (mTOR). The C-terminal region of TSC2 contains a calmodulin (CaM) binding region and the CaM-TSC2 interaction contributes to proper mTOR activity. However, other downstream signaling pathways/effectors activated by the CaM-TSC2 complex have not been fully elucidated. In this study, we found that activation of Ca2+/CaM signaling resulted in the translocation of membrane-associated TSC2 to the nucleus and suppressed the transcriptional activity of the vitamin D receptor (VDR). TSC2 was released from the membrane in an activated CaM-dependent state in rat brain and HeLa cells. It subsequently formed a transcriptional complex to partially suppress the transcription of CYP24A1, a well-known VDR target gene. These data suggest, in part, that TSC2 attenuates VDR-associated transcriptional regulation via Ca2+/CaM signaling.

Brown Rice Inhibits Development of Nonalcoholic Fatty Liver Disease in Obese Zucker (fa/fa) Rats by Increasing Lipid Oxidation Via Activation of Retinoic Acid Synthesis.

BACKGROUND: White rice and its unrefined form, brown rice, contain numerous compounds that are beneficial to human health. However, the starch content of rice can contribute to obesity, a main risk factor for nonalcoholic fatty liver disease (NAFLD). OBJECTIVES: We investigated the effect of rice consumption on NAFLD and its underlying molecular mechanism. METHODS: We randomly divided 7-week-old male obese Zucker (fa/fa) rats, an animal model of NAFLD, into 3 groups (n = 10 each) fed 1 of 3 diets for 10 weeks: a control diet (Cont; AIN-93G diet; 53% cornstarch), a white rice diet (WR; AIN-93G diet with cornstarch replaced with white rice powder), or a brown rice diet (BR; AIN-93G diet with cornstarch replaced with brown rice powder). Liver fat accumulation and gene expression related to lipid and vitamin A metabolisms, including retinoic acid (RA) signaling, were analyzed. RESULTS: Hepatic lipid values were significantly decreased in the BR group compared with the Cont group, by 0.4-fold (P < 0.05). The expression of genes related to hepatic fatty acid oxidation, such as carnitine palmitoyltransferase 2, was approximately 2.1-fold higher in the BR group than the Cont group (P < 0.05). The expression of peroxisomal acyl-coenzyme A oxidase 1 and acyl-CoA dehydrogenase medium chain was also significantly increased, by 1.6-fold, in the BR group compared with the Cont group (P < 0.05). The expression of VLDL-secretion-related genes, such as microsomal triglyceride transfer protein, was also significantly higher in the BR group (2.4-fold; P < 0.05). Furthermore, aldehyde dehydrogenase 1 family member A1, an RA synthase gene, was 2-fold higher in the BR group than the Cont group (P < 0.05). CONCLUSIONS: Brown rice prevented development of NAFLD in obese Zucker (fa/fa) rats. The beneficial effects of pregelatinized rice on NAFLD could be manifested as increased fatty acid oxidation and VLDL secretion, which are regulated by RA signaling.

Stability of tuberous sclerosis complex 2 is controlled by methylation at R1457 and R1459.

Mutations in genes that encode components of tuberous sclerosis complex 2 (TSC2) are associated with tuberous sclerosis complex disease. TSC2 interacts with tuberous sclerosis complex 1 to form a complex that negatively regulates cell growth and proliferation via the inactivation of mechanistic target of rapamycin complex 1. The activity of TSC2 is mainly regulated via posttranslational modifications such as phosphorylation. However, the control of TSC2 activity is not entirely achieved by phosphorylation. In this study, we show that TSC2 is methylated at R1457 and R1459 by protein arginine methyltransferase 1 (PRMT1). Methylation of these two residues can affect the phosphorylation status through protein kinase B (Akt) of TSC2 at T1462 and is essential for TSC2 stability. Taken together, these findings indicate that novel posttranslational modifications are important for the regulation of TSC2 stability through PRMT1-mediated methylation.

Niclosamide activates the AMP-activated protein kinase complex containing the ß2 subunit independently of AMP.

AMP-activated protein kinase (AMPK) regulates cellular energy homeostasis by suppressing anabolic processes and activating catabolic processes. AMPK activators are an important therapeutic target for metabolic syndrome due to favorable physiological effects of AMPK activation on metabolism. Recent studies show that niclosamide, an FDA-approved anthelmintic drug that exerts an uncoupling effect on the mitochondria of the parasite, improves blood glucose levels and reduces hepatic steatosis in mice via AMPK activation. Niclosamide is thought to activate AMPK by increasing AMP/ATP ratio through mitochondrial uncoupling, but details of its action remain unclear. In this study, we found that niclosamide also activates the AMPK complex, which contains the AMP-insensitive γ subunit. Further, niclosamide shows greater AMPK activation for the AMPK complex containing ß2 subunit, but not the ß1 subunit. This effect was inhibited by substituting the Ser108 residue of the ß2 subunit to alanine. Niclosamide displays a novel AMPK activation mechanism independent of the increase in AMP/ATP ratio.

AMP-activated protein kinase regulates alternative pre-mRNA splicing by phosphorylation of SRSF1.

AMP-activated protein kinase (AMPK) regulates cellular energy homeostasis by inhibiting anabolic processes and activating catabolic processes. Recent studies have demonstrated that metformin, which is an AMPK activator, modifies alternative precursor mRNA (pre-mRNA) splicing. However, no direct substrate of AMPK for alternative pre-mRNA splicing has been reported. In the present study, we identified the splicing factor serine/arginine-rich splicing factor 1 (SRSF1) as a novel AMPK substrate. AMPK directly phosphorylated SRSF1 at Ser133 in an RNA recognition motif. Ser133 phosphorylation suppressed the interaction between SRSF1 and specific RNA sequences without altering the subcellular localization of SRSF1. Moreover, AMPK regulated the SRSF1-mediated alternative pre-mRNA splicing of Ron, which is a macrophage-stimulating protein receptor, by suppressing its interaction with exon 12 of Ron pre-mRNA. The findings of this study revealed that the AMPK-dependent phosphorylation of SRSF1 at Ser133 inhibited the ability of SRSF1 to bind RNA and regulated alternative pre-mRNA splicing.

Activation of peroxisome proliferator-activated receptor gamma/small heterodimer partner pathway prevents high fat diet-induced obesity and hepatic steatosis in Sprague-Dawley rats fed soybean meal.

Soybeans are a complete nutritional resource and soybean proteins are known to affect lipid metabolism via multiple mechanisms. Soybean meal (SBM) is produced after extraction of soybean oil and in this study, we investigated the ability whether the SBM could prevent high fat diet-induced obesity and understand the underlying mechanisms. Male Sprague-Dawley rats, aged 5 weeks, were randomly divided into three groups (n=8 each) and fed one of three diets for 28 days: Cont (AIN-93G), HFD (high fat diet with 40% of calories derived from fat) and HFD+SBM (HFD with 30% SBM). White adipose tissue weight as well as plasma and hepatic triglycerides were significantly decreased in HFD+SBM rats. Expression of hepatic SREBP-1 and its target genes was significantly decreased in HFD+SBM rats. Meanwhile, expression of SHP gene expression was significantly increased in HFD+SBM, and there was a negative correlation between SHP and SREBP-1 expression. Together these results suggest that hepatic SREBP-1 gene expression is negatively regulated by SHP. Expression of PPARG, the transcriptional factor that regulates SHP expression, was increased in HFD+SBM rats. Furthermore, expression of genes controlled by PPARG/SHP, such as those involved in hepatic gluconeogenesis, was also significantly decreased in HFD+SBM rats. Therefore, in addition to the previous findings of SBM on obesity here we show an additional mechanism which by changing the expression of genes involved in lipid metabolism via the PPARG/SHP pathway in the liver.

Prediction of intravesical recurrence of non-muscle-invasive bladder cancer by evaluation of intratumoral Foxp3+ T cells in the primary transurethral resection of bladder tumor specimens.

Patients with a history of non-muscle-invasive bladder cancer sometimes have recurrence of tumors after transurethral resection of bladder tumor treatment. To find factors related to the recurrence of non-muscle-invasive bladder cancer, we examined tissue specimens taken at transurethral resection of bladder tumor as an initial treatment. We revealed the association between prognosis of non-muscle-invasive bladder cancer and infiltration of Foxp3+ T cells that suppress anti-tumor immunity in 115 primary non-muscle-invasive bladder cancer patients retrospectively identified and followed for at least 3 months after primary transurethral resection. In immunohistological staining, we counted the number of cells positive for CD3 and positive for CD3 and Foxp3 together and calculated the percentage of Foxp3+ T cells among the CD3+ T cells. The recurrence-free survival rate was calculated by the Kaplan-Meier method, and a Cox regression analysis of recurrence factors was performed. The median (interquartile range) percentage of Foxp3+ T cells in all cases was 17.1% (11.9, 11.4-23.3%). Compared by risk stratification, it was 11.4% (10.4, 7.8-18.2%) in the low-risk group (n = 32), 16.8% (12.6, 11.6-24.2%) in the intermediate-risk group (n = 45), and 22.0% (9.7, 16.4-26.1%) in the high-risk group (n = 38). The Kaplan-Meier survival analysis indicated that the Foxp3+ T cell high group (≥ 17.1%) had a worse RFS rate than did the low group (< 17.1%) (P = 0.006). In multivariate analysis, the percentage of Foxp3+ T cells was an independent risk factor for intravesical recurrence (hazard ratio 2.25). Thus, peritumoral Foxp3+ T cell infiltration was correlated to risk stratification and recurrence-free survival. Therefore, the percentage of Foxp3+ T cells in tumor specimens may predict a risk for intravesical recurrence.

The Great East Japan Earthquake: Analyses of Disaster Impacts on Health Care Clinics.

OBJECTIVE: Local health facilities play a critical role in mitigating the deterioration of health after catastrophic disasters. However, limited information is available on clinic damage. Therefore, the National Institute of Public Health conducted surveillance on clinic damage after the 2011 Great East Japan Earthquake (GEJE) to identify risk factors. METHODS: A cross-sectional study using a paper-based questionnaire was conducted that targeted 728 clinics located in coastal areas in the 3 prefectures most affected by the GEJE. RESULTS: The risk of building damage was inversely correlated with distance from the coast, whereas the risk of ceasing operations was significantly correlated with building damage and some specialties of clinics, namely, internal medicine and pediatrics.DiscussionIn mountainous countries like Japan, clinics often need to be built in coastal areas, where the majority of residents live. This surveillance revealed that clinics built in readily accessible locations and that provide care with high needs are more likely to get damaged by tsunamis. As clinics are often the frontline health facilities in disaster settings, local disaster plans need to include plans to reinforce disaster preparedness among clinics. For effective planning and resource allocation, nationwide hazard vulnerability analysis using a global standard will be helpful. (Disaster Med Public Health Preparedness. 2018; 12: 291-295).

Metabolic abnormalities induced by mitochondrial dysfunction in skeletal muscle of the renal carcinoma Eker (TSC2+/-) rat model.

Tuberous sclerosis complex 2 (TSC2) is a mediator of insulin signal transduction, and a loss of function in TSC2 induces hyperactivation of mTORC1 pathway, which leads to tumorigenesis. We have previously demonstrated that Eker rat model, which is heterozygous for a TSC2 mutation, exhibits hyperglycemia and hyperketonemia. The present study was to investigate whether these changes also can affect metabolism in skeletal muscle of the Eker rat. Wild-type (TSC2+/+) and Eker (TSC2+/-) rats underwent an oral glucose tolerance test, and the latter showed decrease in whole-body glucose utilization. Additionally, reductions in the expression of glycolysis-, lipolysis-, and ketone body-related genes in skeletal muscle were observed in Eker rats. Furthermore, ATP content and mitochondrial DNA copy number were lower in skeletal muscle of Eker rats. These data demonstrate that heterozygous to mutation TSC2 not only affects the liver metabolism, but also skeletal muscle metabolism, via mitochondrial dysfunction.

High dietary fat-induced obesity in Wistar rats and type 2 diabetes in nonobese Goto-Kakizaki rats differentially affect retinol binding protein 4 expression and vitamin A metabolism.

Obesity is a major risk factor for type 2 diabetes, which is caused mainly by insulin resistance. Retinol binding protein 4 (RBP4) is the only specific transport protein for retinol in the serum. RBP4 level is increased in the diabetic state and high-fat condition, indicating that retinol metabolism may be affected under these conditions. However, the precise effect of diabetes and high fat-induced obesity on retinol metabolism is unknown. In this study, we examined differences in retinol metabolite levels in rat models of diet-induced obesity and type 2 diabetes (Goto-Kakizaki [GK] rat). Four-week-old male Wistar and GK rats were given either a control diet (AIN-93G) or a high-fat diet (HFD, 40% fat kJ). After 15 weeks of feeding, the RBP4 levels increased by 2-fold in the serum of GK rats but not HFD-fed rats. The hepatic retinol concentration of HFD-fed rats was approximately 50% that of the controls (P < .01). In contrast, the renal retinol concentrations of GK rats increased by 70% (P < .01). However, expression of RARß in the kidney, which was induced in a retinoic acid-dependent manner, was downregulated by 90% (P < .01) in GK rats. In conclusion, diabetes and obesity affected retinol metabolism differently, and the effects were different in different peripheral tissues. The impact of HFD may be limited to the storage of hepatic vitamin A as retinyl palmitate. In particular, our data indicate that renal retinoic acid production might represent an important target for the treatment of type 2 diabetes mellitus.

The tuberous sclerosis complex model Eker (TSC2+/-) rat exhibits hyperglycemia and hyperketonemia due to decreased glycolysis in the liver.

Tuberous sclerosis complex (TSC) presents as benign tumors that affect the brain, kidneys, lungs and skin. The inactivation of TSC2 gene, through loss of heterozygosity is responsible for tumor development in TSC. Since TSC patients are carriers of heterozygous a TSC2; mutation, to reveal the risk factors which these patients carry prior to tumor development is important. In this experiment, Eker rat which carry a mutation in this TSC2 gene were analyzed for their metabolic changes. Wild-type (TSC2+/+) and heterozygous mutant TSC2 (TSC2+/-) Eker rats were raised for 100 days. As a result, the Eker rats were found to exhibit hyperglycemia and hyperketonemia. However the high ketone body production in the liver was observed without accompanying increased levels of plasma free fatty acids or insulin. Further, production of the ketone body ß-hydroxybutyrate was inhibited due to the low NADH/NAD(+) ratio resulting from the restraint on glycolysis, which was followed by inhibition of the malate-aspartate shuttle and TCA cycle. Therefore, we conclude that glycolysis is restrained in the livers of TSC2 heterozygous mutant rats, and these defects lead to abnormal production of acetoacetate.

Adhesive Approach Using Internal Coping for Vertical Root Fractured Teeth with Flared Root Canals.

Vertical root fractures are often observed in teeth with endodontic treatment and post space preparation. Frequently, because such teeth have flared root canals with thin dentin walls, conventional treatments are disadvantageous in terms of adhesiveness, sealability and risk of refracture. Here we devised an intentional replantation method that uses internal resin coping, with a reinforcing effect on thin root canal dentin. In two patients treated with this method, satisfactory conditions have been maintained. This report suggests that an intentional replantation method in which an internal resin coping is employed may be a useful therapy for fractured teeth with flared root canals.

Activation of Nrf2/Keap1 signaling and autophagy induction against oxidative stress in heart in iron deficiency.

We investigated the effects of dietary iron deficiency on the redox system in the heart. Dietary iron deficiency increased heart weight and accumulation of carbonylated proteins. However, expression levels of heme oxygenase-1 and LC3-II, an antioxidant enzyme and an autophagic marker, respectively, in iron-deficient mice were upregulated compared to the control group, resulting in a surrogate phenomenon against oxidative stress.

[Epithelioid angiomyolipoma : a case report].

A 63-year-old woman with a right renal tumor diagnosed by ultrasound, consulted our hospital in October 2008. The findings of her physical examination were unremarkable. The results of urinalysis and other routine blood tests were normal. The urinary cytology was negative for malignant cells. Dynamic computed tomography showed a right renal mass (diameter, 7.5 cm), which was enhanced in the early phase and washed out in the late phase. We initially thought that the patient had renal cell carcinoma. Therefore, laparoscopic right nephrectomy was performed in October 2008. The tumor section was found to be encapsulated, and focal hemorrhage and necrosis were observed. Histological examination of the tumor by hematoxylin-eosin staining revealed that it contained polygonal cells, eosinophilic cytoplasm and large nuclei. Immunohistochemical staining of anticytokeratin antibodies AE1/AE3 and CAM5.2 (markers for renal cell carcinoma) was negative. However, immunohistochemical staining of HMB-45, a marker for melanoma, was positive. The patient was finally diagnosed with epithelioid angiomyolipoma. She did not show any evidence of tumor recurrence for 25 months after the surgery.

Interaction of activated Rab5 with actin-bundling proteins, L- and T-plastin and its relevance to endocytic functions in mammalian cells.

Rab5 is a GTP-binding protein that is crucial for endocytic machinery functions. We previously identified L-plastin as a binding protein for Rab5, using an affinity column with constitutively active Rab5. L- and T-plastin are isoforms of a plastin protein family belonging to actin-bundling proteins that are implicated in the regulation of cell morphology, lamellipodium protrusion, bacterial invasion and tumor progression. However, the physiological relevance of Rab5 binding to plastin has remained unclear. Here, we show that L- and T-plastin interacted only with activated Rab5 and that they co-localized with Rab5 on the plasma membrane and endosome. Rab5 activity was also higher in both L- and T-plastin over-expressing Cos-1 cells. Furthermore, expression of L- and T-plastin increased the rate of fluid-phase endocytosis. These findings imply that the Rab5 is either activated or the activity is sustained by interaction with plastin, and that this interaction influences endocytic activity.

Application of SYPRO Ruby- and Flamingo-stained polyacrylamide gels to Western blot analysis.

Western blots are widely used for analysis of the expression levels of specific proteins. Blotting is conducted after sodium dodecyl sulfate or native polyacrylamide gel electrophoresis without staining the gel. However, when it is necessary to analyze the gel, duplicate polyacrylamide gels (one of which is stained) usually must be prepared, leading to the consumption of precious sample. Thus, we have developed a convenient and efficient Western blot method using a stained gel. This simple modification should be beneficial for the analysis of samples that are limited in quantity and/or samples for which the stained gel serves as the loading control.

N-Formyl-3,4-methylenedioxy-benzylidene-gamma-butyrolaetam, KNK437 induces caspase-3 activation through inhibition of mTORC1 activity in Cos-1 cells.

The mammalian target of rapamycin complex 1 (mTORC1: mTOR-raptor interaction) and heat shock protein 70 (Hsp70) regulate various cellular processes and are crucial for the progression of many cancers and metabolic diseases. In the recent study, we reported that interaction of Hsp70 with tuberous sclerosis complex 1 (TSC1) regulated apoptosis. This study was designed to elucidate the underlying mechanism in Cos-1 cells. Here, we show that N-formyl-3,4-methylenedioxy-benzylidene-gamma-butyrolaetam (KNK437), which inhibits the expression level of Hsp70, abrogated phosphorylation of mTOR and S6K in response to insulin, and inhibited mTORC1 activity via disruption of an interaction between mTOR and raptor. In addition, KNK437 did not alter TSC1/2 complex formation. Furthermore, KNK437 inhibited the mTOR-raptor interaction on the outer membrane of the mitochondria and triggered caspase-3 activation. A reduction in the level of Hsp70 could result in the inhibition of the mTORC1 signaling pathway, thereby inducing apoptosis.

Phosphorylated hamartin-Hsp70 complex regulates apoptosis via mitochondrial localization.

The products of the tuberous sclerosis complex (TSC) genes, hamartin and tuberin, form a heterodimer. Recently we reported that hamartin directly interacted with Hsp70. However, the physiological implications of this interaction have not yet been clearly defined. Here we show that hamartin localized to the outer membrane of the mitochondria in an Hsp70-dependent manner. Moreover, phosphorylation of the T417 residue of hamartin was required for its localization to the mitochondria as well as its interaction with Hsp70. A non-phosphorylatable hamartin mutant at residue T417 was unable to localize to the mitochondria and suppress apoptosis, whereas non-phosphorylatable hamartin mutants T357A and T390A localized to the mitochondria and suppressed apoptosis. Importantly, non-phosphorylatable mutants (T357A, T390A and T417A) promoted apoptosis after treatment with Hsp 70-inhibitor KNK437. We conclude that hamartin inhibited apoptosis by localizing to the mitochondria and that its phosphorylation and binding to Hsp70 was required for facilitation of this process.

[A case report: retroperitoneoscopic nephrectomy for a giant hydronephrosis of a horseshoe kidney].

A 30-year-old female was referred to our hospital complaining of left flank pain. She was diagnosed with a giant hydronephrosis in a horseshoe kidney. We performed a retroperitoneoscopic nephrectomy on the non-functioning moiety of the horseshoe kidney. After the placement of a ureteral catheter, she underwent a retroperitoneal nephrectomy. The feeding vessels consisted of four arteries and four veins. The thin isthmus of the horseshoe kidney was divided using scissors, without the need for electrocautery, and hemostasis was achieved using monopolar shears. Laparoscopic nephrectomy on a horseshoe kidney is a difficult surgery given the aberrant vessels and isthmus, so it tends to be avoided for reasons of safety. However, if appropriate preoperative imaging is carried out and the procedure is conducted in a careful manner, it can be made a safe and minimally invasive operation.

Hamartin-Hsp70 interaction is necessary for Akt-dependent tuberin phosphorylation during heat shock.

Hamartin and tuberin interact directly to regulate cell growth negatively. In this study, far-western blotting revealed that hamartin binds directly Heat shock protein 70 (Hsp70), even in the absence of tuberin. While the hamartin-tuberin complex acts as a sensor for a variety of types of stress, it is unclear how the complex is regulated under stress conditions. We found that the hamartin-Hsp70 interaction is stabilized during heat shock. On the other hand, tuberin underwent degradation through phosphorylation in an Akt-dependent manner. Furthermore, we found that when Hsp70 expression was inhibited by N-formyl-3,4-methylenedioxy-benzylidene-gamma-butyrolactam (KNK437), Akt phosphorylation on site Ser308 diminished and tuberin was not phosphorylated at Thr1462 during heat shock. We conclude that both hamartin and Hsp70 increase in response to heat shock, whereas tuberin is phosphorylated and thereafter degraded via the PI3K/Akt pathway. Through this pathway, hamartin-Hsp70 plays a crucial role as a scaffolding protein that transfers the Akt signal to tuberin.