Severe Functional Tricuspid Stenosis Due to Phosphoglyceride Crystal Deposition Disease in Right Atrium.

This case report concerns a 72-year-old-female with severe functional tricuspid stenosis due to phosphoglyceride crystal deposition disease and a history of atrial septum closure and tricuspid valvuloplasty. Phosphoglyceride crystal deposition disease is extremely rare, and percutaneous transcatheter biopsy under intracardiac echocardiographic guidance proved to be useful for its diagnosis. (Level of Difficulty: Advanced.).

Cullin-4B E3 ubiquitin ligase mediates Apaf-1 ubiquitination to regulate caspase-9 activity.

Apoptotic protease-activating factor 1 (Apaf-1) is a component of apoptosome, which regulates caspase-9 activity. In addition to apoptosis, Apaf-1 plays critical roles in the intra-S-phase checkpoint; therefore, impaired expression of Apaf-1 has been demonstrated in chemotherapy-resistant malignant melanoma and nuclear translocation of Apaf-1 has represented a favorable prognosis of patients with non-small cell lung cancer. In contrast, increased levels of Apaf-1 protein are observed in the brain in Huntington's disease. The regulation of Apaf-1 protein is not yet fully understood. In this study, we show that etoposide triggers the interaction of Apaf-1 with Cullin-4B, resulting in enhanced Apaf-1 ubiquitination. Ubiquitinated Apaf-1, which was degraded in healthy cells, binds p62 and forms aggregates in the cytosol. This complex of ubiquitinated Apaf-1 and p62 induces caspase-9 activation following MG132 treatment of HEK293T cells that stably express bcl-xl. These results show that ubiquitinated Apaf-1 may activate caspase-9 under conditions of proteasome impairment.

Histone deacetylase inhibitor panobinostat induces calcineurin degradation in multiple myeloma.

Multiple myeloma (MM) is a relapsed and refractory disease, one that highlights the need for developing new molecular therapies for overcoming of drug resistance. Addition of panobinostat, a histone deacetylase (HDAC) inhibitor, to bortezomib and dexamethasone improved progression-free survival (PFS) in relapsed and refractory MM patients. Here, we demonstrate how calcineurin, when inhibited by immunosuppressive drugs like FK506, is involved in myeloma cell growth and targeted by panobinostat. mRNA expression of PPP3CA, a catalytic subunit of calcineurin, was high in advanced patients. Panobinostat degraded PPP3CA, a degradation that should have been induced by inhibition of the chaperone function of heat shock protein 90 (HSP90). Cotreatment with HDAC inhibitors and FK506 led to an enhanced antimyeloma effect with a greater PPP3CA reduction compared with HDAC inhibitors alone both in vitro and in vivo. In addition, this combination treatment efficiently blocked osteoclast formation, which results in osteolytic lesions. The poor response and short PFS duration observed in the bortezomib-containing therapies of patients with high PPP3CA suggested its relevance to bortezomib resistance. Moreover, bortezomib and HDAC inhibitors synergistically suppressed MM cell viability through PPP3CA inhibition. Our findings underscore the usefulness of calcineurin-targeted therapy in MM patients, including patients who are resistant to bortezomib.

Efficacy and safety of sublingual fentanyl orally disintegrating tablet at doses determined from oral morphine rescue doses in the treatment of breakthrough cancer pain.

OBJECTIVE: A randomized, crossover, double-blinded placebo-controlled and non-blinded active drug-controlled, comparative clinical trial was conducted to evaluate the efficacy and safety of sublingual fentanyl tablet. METHODS: Subjects were patients treated with strong opioids at fixed intervals for chronic cancer pain and with oral morphine as rescue medication for breakthrough pain. Sublingual fentanyl was administered at doses that were 1/25th (high dose) and 1/50th (low dose) of the dose of rescue morphine and was compared with placebo and oral morphine. The primary endpoint was pain intensity difference at 30 min after administration. (Clinical Trials Government; NCT00684632). RESULTS: Fifty-one patients were enrolled in the investigation. Their mean pain intensity in visual analog scale before rescue medication prior to the investigation was 60.96 (16.44, standard deviation) mm. Compared with placebo, the low and high doses of sublingual fentanyl showed significant analgesic effects (least squares mean difference, 4.54 and 8.49 mm; P = 0.014, P < 0.001, respectively). Adverse reactions were observed in 17.6%, the most common being constipation, nausea and somnolence. The incidence of adverse reactions during the high-dose administration period was higher than that during the low-dose and active control drug administration periods. CONCLUSIONS: Patients treated with strong opioid analgesics at fixed intervals for chronic cancer pain and with oral morphine at doses up to 20 mg as rescue medication were investigated. The doses of sublingual fentanyl to treat breakthrough pain were determined from rescue morphine doses by use of conversion ratios. In these patients, administration of sublingual fentanyl at doses determined by a conversion ratio of 1/50 was effective and safe. Further studies are needed to validate the use of this conversion method.

Efficacy and safety of sublingual fentanyl orally disintegrating tablet at doses determined by titration for the treatment of breakthrough pain in Japanese cancer patients: a multicenter, randomized, placebo-controlled, double-blind phase III trial.

BACKGROUND: Breakthrough cancer pain typically has a rapid onset and relatively short duration. Due to this temporal profile, it may not be adequately relieved by oral opioid analgesics. The sublingual fentanyl orally disintegrating tablet is a formulation by which fentanyl can be rapidly absorbed across the oral mucosa producing rapid-onset analgesia, and which may be effective for breakthrough pain treatment. METHODS: A multicenter, randomized, placebo-controlled, double-blind comparative study was conducted to evaluate the efficacy and safety of the sublingual fentanyl tablet at optimized doses for breakthrough pain treatment in cancer patients treated with strong opioid analgesics at fixed intervals. The optimal dose was determined by open-label dose titration. The efficacy and safety of a 12-week extended treatment were also evaluated. RESULTS: Eleven of 42 subjects who received the sublingual fentanyl tablet experienced adverse drug reactions. Common reactions were somnolence, constipation, nausea, and vomiting. No serious adverse reactions occurred. Sublingual fentanyl tablets at optimal doses and placebo were administered to 37 subjects in a double-blinded manner. A significant analgesic effect of the sublingual fentanyl tablet was present compared to placebo at 30 min after administration. The sublingual fentanyl tablet was also effective and safe during extended treatment, in which changes in basal opioid doses as well as sublingual fentanyl tablet doses were made as needed. CONCLUSION: Sublingual fentanyl tablets at doses determined by titration were effective and safe for breakthrough pain treatment in cancer patients treated with strong opioid analgesics at fixed intervals. Extended treatment up to 12 weeks was also effective and safe.

[Discovered roles of MLL in pathogenesis of multiple myeloma].

Multiple myeloma is one of incurable hematological malignancies and targeted therapies for novel oncogenes are to be exploited. Analyses of multiple myeloma patients revealed that HOXA9 was overexpressed in patients lacking known IgH translocation and it was evaluated as a candidate oncogene in multiple myeloma. This overexpression of HOXA9 was supposed to be due to dysfunction of histone methyltransferases (HMT) and mutations in MLL encoding HMT were found. Panobinostat, an HDAC inhibitor is currently undergoing preclinical and clinical evaluation as a novel drug for multiple myeloma. We found that panobinostat suppresses expression of MLL protein through modulation of its stability as well as Hsp90 inhibitor. More precise roles of MLL in pathogenesis of multiple myeloma are to be elucidated.

Polyglutamine expansion disturbs the endoplasmic reticulum formation, leading to caspase-7 activation through Bax.

The endoplasmic reticulum (ER) plays a pivotal role in cellular functions such as the ER stress response. However, the effect of the ER membrane on caspase activation remains unclear. This study reveals that polyglutamine oligomers augmented at ER induce insertion of Bax into the ER membrane, thereby activating caspase-7. In line with the role of ER in cell death induced by polyglutamine expansion, the ER membrane was found to be disrupted and dilated in the brain of a murine model of Huntington's disease. We can conclude that polyglutamine expansion may drive caspase-7 activation by disrupting the ER membrane.

Olfaxin as a novel Prune2 isoform predominantly expressed in olfactory system.

Prune homolog 2 (Drosophila) (PRUNE2) encodes a BCH motif-containing protein that shares homology with the Cayman ataxia-related protein Caytaxin. Caytaxin is a substrate of caspase-3 and is specifically expressed at the presynapse of vesicular-type glutamate transporter (VGLUT)-positive neurons, where it plays a role in glutamate neurotransmission primarily in the cerebellum and hippocampus. Here, we showed that a novel Prune2 isoform contains a BCH motif and localizes predominantly to the synaptic cytosol, similar to Caytaxin. However, the isoform is expressed predominantly in the olfactory bulb and layer Ia of the piriform cortex, where Caytaxin is scarcely expressed. The isoform expression is upregulated during development, similar to that in the presynaptic-localizing proteins Synapsin I and Bassoon. Prune2 and its previously identified isoforms have been shown to be a susceptibility gene for Alzheimer's disease, a biomarker for leiomyosarcomas, a proapoptotic protein, and an antagonist of cellular transformation. In addition, a novel isoform may develop new roles for Prune2 at the synapse in olfactory systems.

Endoplasmic reticulum stress enhances γ-secretase activity.

The endoplasmic reticulum (ER) copes with unfolded proteins in the lumen (ER stress) by activating three distinct intracellular signaling pathways of unfolded protein response (UPR). ER stress contributes to the pathogenesis of obesity and diabetes, which are risk factors for Alzheimer's disease (AD) that accelerate the pathogenesis of AD. However, whether ER stress is involved in the development of AD remains unclear. In this study, we demonstrate that ER stress induces presenilin-1 expression through activating transcription factor 4 (ATF4), resulting in increased amyloid-ß (Aß) secretion by γ-secretase activity, which is suppressed by quercetin by modifying UPR signaling. This result suggests that ER stress may be stimulated in obesity and type 2 diabetes, thereby enhancing γ-secretase activity that is the underlying molecular mechanism affecting the pathogenesis of AD.

The expression and localization of Prune2 mRNA in the central nervous system.

A family of Bcl-2/adenovirus E1B 19kDa-interacting proteins (BNIPs) plays critical roles in several cellular processes such as cellular transformation, apoptosis, neuronal differentiation, and synaptic function, which are mediated by the BNIP2 and Cdc42GAP homology (BCH) domain. Prune homolog 2 (Drosophila) (PRUNE2) and its isoforms -C9orf65, BCH motif-containing molecule at the carboxyl terminal region 1 (BMCC1), and BNIP2 Extra Long (BNIPXL) - have been shown to be a susceptibility gene for Alzheimer's disease, a biomarker for leiomyosarcomas, a proapoptotic protein in neuronal cells, and an antagonist of cellular transformation, respectively. However, precise localization of PRUNE2 in the brain remains unclear. Here, we identified the distribution of Prune2 mRNA in the adult mouse brain. Prune2 mRNA is predominantly expressed in the neurons of the cranial nerve motor nuclei and the motor neurons of the spinal cord. The expression in the dorsal root ganglia (DRG) is consistent with the previously described reports. In addition, we observed the expression in another sensory neuron in the mesencephalic trigeminal nucleus. These results suggest that Prune2 may be functional in these restricted brain regions.

Cayman ataxia-related protein is a presynapse-specific caspase-3 substrate.

Caspase plays an important role in apoptosis and physiological processes such as synaptic plasticity. However, the caspase substrate at the synapse is still unknown. Here we used an in vitro cleavage assay with a small-pool human brain cDNA library. We identified the presynaptic protein Caytaxin as a substrate of caspase-3 and caspase-7. Deficiency in Caytaxin causes Cayman ataxia, a disorder characterized by cerebellar dysfunction and mental retardation. Caytaxin cleavage in cerebellar granule neurons is dependent on caspase-3 activation. The cleavage site is upstream of the cellular retinal and the TRIO guanine exchange factor domain, producing a C-terminal fragment that may play an alternative role in inhibiting MEK2 signaling. Thus, we concluded that Caytaxin is a novel substrate of caspase-3 at the presynapse.

Autophagy impairment stimulates PS1 expression and gamma-secretase activity.

Gamma-secretase plays an important role in the development of Alzheimer disease (AD). Gamma-secretase activity is enriched in autophagic vacuoles and it augments amyloid-beta (Abeta) synthesis. Autophagy-lysosomal dysfunction has been implicated in AD, but whether gamma-secretase activity is affected by autophagy remains unclear. Here we report that gamma-secretase activity is enhanced in basal autophagy-disturbed cells through the alpha subunit of eukaryotic translation initiation factor 2 (eIF2alpha) kinase, general control nonderepressible 2 (GCN2). Presenilin-1 (PS1) expression was increased even in the presence of nutrients in autophagy-related 5 knockdown (Atg5KD) human embryonic kidney (HE K293) cells expressing a short hairpin RNA as well as in chloroquine-treated HE K293 cells. However, PS1 expression induction was prevented in GCN2KD and ATF4KD cells. Furthermore, Atg5KD cells showed an increase in Abeta production and Notch1 cleavage. These were reduced by an autophagy inducer, resveratrol. Thus, we conclude that the autophagy-lysosomal system regulates gamma-secretase activity through GCN2.

Profile analysis of 24-hours measurements of blood pressure.

A method is proposed for classifying subjects according to their convex, flat, or concave change patterns of 24-hours blood pressure measurements. To obtain such a classification is useful for detecting subjects who show abnormal change patterns and giving them appropriate medical treatments. Therefore, an appropriate statistic is proposed for detecting a systematic change along the time axis, as well as a statistic with its inverse characteristic appropriate for evaluating the noise variation. The method is based on the ratio of those two types of statistics; it is verified to work well on real data, giving a classification of subjects into four types of subgroups: extreme dipper, dipper, nondipper, and inverted dipper. It also suggests that there might be an ultra-extreme dipper subgroup.