Novel pyrrole-containing histone deacetylase inhibitors endowed with cytodifferentiation activity

A novel series of aroyl-pyrrolyl-hydroxy-amides (APHAs) active as histone deacetylase (HDAC) inhibitors has been reported. The new derivatives were designed by replacing the benzene ring of the prototype 1 with both aromatic and aliphatic, monocyclic and polycyclic rings (compounds 3a-i), or by inserting a number of substituents on the methylene linker of 1 (compounds 4a-l). Compounds 3a-i and 4a-l were active at sub-micromolar level against the maize deacetylases HD1-B (class I), HD1-A (class II), and HD2. Tested at 5 microM against human HDAC1 and HDAC4, 3b, 4a, and 4j showed significant HDAC1 inhibition, whereas on HDAC4 only 4a was highly effective. On the human leukemia U937 cell line, the same compounds did not alter the cell cycle phases and failed in inducing apoptosis. However, they displayed granulocytic differentiation at 5 microM, with 3b being the most potent (76% CD11c positive cells). Tested to evaluate their effects on histone H3 and alpha-tubulin acetylation, 3b and 4a showed high H3 acetylation, whereas 4a and 4b were the most potent with alpha-tubulin as a substrate.     

Spontaneous calcification process in primary renal cells from a medullary sponge kidney patient harbouring a GDNF mutation

Medullary nephrocalcinosis is a hallmark of medullary sponge kidney (MSK). We had the opportunity to study a spontaneous calcification process in vitro by utilizing the renal cells of a patient with MSK who was heterozygous for the c.‐27 + 18G>A variant in the GDNF gene encoding glial cell‐derived neurotrophic factor. The cells were obtained by collagenase digestion of papillary tissues from the MSK patient and from two patients who had no MSK or nephrocalcinosis. These cells were typed by immunocytochemistry, and the presence of mineral deposits was studied using von Kossa staining, scanning electron microscopy analysis and an ALP assay. Osteoblastic lineage markers were studied using immunocytochemistry and RT‐PCR. Staminality markers were also analysed using flow cytometry, magnetic cell separation technology, immunocytochemistry and RT‐PCR. Starting from p2, MSK and control cells formed nodules with a behaviour similar to that of calcifying pericytes; however, Ca₂PO₄ was only found in the MSK cultures. The MSK cells had morphologies and immunophenotypes resembling those of pericytes or stromal stem cells and were positive for vimentin, ZO1, αSMA and CD146. In addition, the MSK cells expressed osteocalcin and osteonectin, indicating an osteoblast‐like phenotype. In contrast to the control cells, GDNF was down‐regulated in the MSK cells. Stable GDNF knockdown was established in the HK2 cell line and was found to promote Ca₂PO₄ deposition when the cells were incubated with calcifying medium by regulating the osteonectin/osteopontin ratio in favour of osteonectin. Our data indicate that the human papilla may be a perivascular niche in which pericyte/stromal‐like cells can undergo osteogenic differentiation under particular conditions and suggest that GDNF down‐regulation may have influenced the observed phenomenon.     

Psidium guajava L. anti-neoplastic effects: induction of apoptosis and cell differentiation

Objectives: Curative properties of medicinal plants such as Psidium guajava L. (Myrtaceae) have often been indicated by epidemiological studies on populations in which these fruits are consumed daily. However, complete characterization of the active principles responsible for this ability has never been performed. Here, we have characterized P. guajava’s anti‐cancer potential and identified the parts of the fruit involved in its anti‐neoplastic action. Materials and methods: We studied morphology of our cells, cell cycle characteristics and apoptosis and performed immunostaining, differentiation and western blot analyses. Results: We report that the P. guajava extract exerted anti‐cancer control on both haematological and solid neoplasias. P. guajava extract’s anti‐tumour properties were found to be tightly bound to induction of apoptosis and differentiation. Use of ex vivo myeloid leukaemia blasts corroborated that P. guajava was able to induce cell death but did not exhibit anti‐cancer effects on all malignant cells investigated, indicating selective activity against certain types of tumour. Analyses of P. guajava pulp, peel and seeds identified the pulp as being the most relevant component for causing cell cycle arrest and apoptosis, whereas peel was responsible for causing cell differentiation. P. guajava itself and its pulp‐derived extract were found to induce apoptosis accompanied by caspase activation and p16, p21, Fas ligand (FASL TNF super‐family, member 6), Bcl‐2‐associated agonist of cell death (BAD) and tumour necrosis factor receptor super‐family, member 10b (DR5), overexpression. Conclusions: Our findings showed that P. guajava L. extract was able to exert anti‐cancer activity on cultures in vitro and ex vivo, supporting the hypothesis of its anti malignant pro‐apoptotic modulation.     

Structural thermal adaptation of β-tubulins from the Antarctic psychrophilic protozoan Euplotes focardii

Tubulin dimers of psychrophilic eukaryotes can polymerize into microtubules at 4°C, a temperature at which microtubules from mesophiles disassemble. This unique capability requires changes in the primary structure and/or in post-translational modifications of the tubulin subunits. To contribute to the understanding of mechanisms responsible for microtubule cold stability, here we present a computational structural analysis based on molecular dynamics (MD) and experimental data of three β-tubulin isotypes, named EFBT2, EFBT3, and EFBT4, from the Antarctic protozoon Euplotes focardii that optimal temperature for growth and reproduction is 4°C. In comparison to the β-tubulin from E. crassus, a mesophilic Euplotes species, EFBT2, EFBT3, and EFBT4 possess unique amino acid substitutions that confer different flexible properties of the polypeptide, as well as an increased hydrophobicity of the regions involved in microtubule interdimeric contacts that may overcome the microtubule destabilizing effect of cold temperatures. The structural analysis based on MD indicated that all isotypes display different flexibility properties in the regions involved in the formation of longitudinal and lateral contacts during microtubule polymerization. We also investigated the role of E. focardii β-tubulin isotypes during the process of cilia formation. The unique characteristics of the primary and tertiary structures of psychrophilic β-tubulin isotypes seem responsible for the formation of microtubules with distinct dynamic and functional properties.     

Decreased subunit stability as a novel mechanism for potassium current impairment by a KCNQ2 C terminus mutation causing benign familial neonatal convulsions

KCNQ2 and KCNQ3 K+ channel subunits underlie the muscarinic-regulated K+ current (I(KM)), a widespread regulator of neuronal excitability. Mutations in KCNQ2- or KCNQ3-encoding genes cause benign familiar neonatal convulsions (BFNCs), a rare autosomal-dominant idiopathic epilepsy of the newborn. In the present study, we have investigated, by means of electrophysiological, biochemical, and immunocytochemical techniques in transiently transfected cells, the consequences prompted by a BFNC-causing 1-bp deletion (2043deltaT) in the KCNQ2 gene; this frameshift mutation caused the substitution of the last 163 amino acids of the KCNQ2 C terminus and the extension of the subunit by additional 56 residues. The 2043deltaT mutation abolished voltage-gated K+ currents produced upon homomeric expression of KCNQ2 subunits, dramatically reduced the steady-state cellular levels of KCNQ2 subunits, and prevented their delivery to the plasma membrane. Metabolic labeling experiments revealed that mutant KCNQ2 subunits underwent faster degradation; 10-h treatment with the proteasomal inhibitor MG132 (20 microm) at least partially reversed such enhanced degradation. Co-expression with KCNQ3 subunits reduced the degradation rate of mutant KCNQ2 subunits and led to their expression on the plasma membrane. Finally, co-expression of KCNQ2 2043deltaT together with KCNQ3 subunits generated functional voltage-gated K+ currents having pharmacological and biophysical properties of heteromeric channels. Collectively, the present results suggest that mutation-induced reduced stability of KCNQ2 subunits may cause epilepsy in neonates.     

游仆虫信息素Er-1和Er-2对四膜虫的种间作用

信息素是生物体向外释放的化学物质,在细胞及生物体中具有种内信息传递的生理学功能。信息素这一类分子广泛分布于系统发生史中,它们的特异活性在单细胞生物、昆虫以及脊椎动物中均有报道。脊椎动物中信息素的信号传输已被证实是一嗅觉依赖过程,7TM-受体被认为是信号传输过程中的信号转换器。在低等单细胞生物(例如:来可夫游仆虫)的细胞膜上存在有信息素异构体,作为信息素分子的有效结合位点而行使其功能。本研究主要探讨单细胞的信息素(Er-1和Er-2)的基础细胞生理学作用是仅限于产生该信息素的物种,还是对其它的原生动物(例如:四膜虫)或对系统发育中分类地位较高的细胞(例如:MRC5成纤维细胞或J774巨噬细胞)均具有调节活性。研究结果表明,游仆虫的两种信息素对梨形四膜虫GL的生长调节有显著不同的作用:当信息素浓度为10-11M时,Er-1具有正调控作用,而Er-2具有抑制剂的作用。这两种配体的趋化作用也有很不同:Er-1具有一种广范的化学排斥特性,而Er-2具有一个双峰的化学吸引剂的性质。计算机检测发现,与Er-2的作用不同,Er-1可略微降低被测细胞的游动速率。趋化现象的选择特性表明Er-2信息素的受体有一种“短期”的特性;而Er-1是不能选择任何亚种群的,这也支持了我们先前的研究数据,即这两种信息素在四膜虫GL内产生两种不同的信号。四膜虫对信息素特异性的反应表明四膜虫能辨别非常近似但带有微小差异的配体(如Er-1和Er-2的电荷差异)。     

A new method for analysis of mitochondrial DNA point mutations and assess levels of heteroplasmy

Determination of mitochondrial DNA (mtDNA) heteroplasmy for the diagnosis of patients with mitochondrial disorders is a difficult task due to the coexistence of wild-type and mutant genomes. We have developed a new method for genotyping and quantification of heteroplasmic point mutations in mtDNA based on the SNaPshot technology. We compared the data of this method with the widely used "last hot-cycle" PCR-RFLP method by studying 15 patients carrying mtDNA mutations. We showed that SNaPshot is an accurate, reproducible, and sensitive technique for the determination of heteroplasmic mtDNA mutations in different tissues from patients, and it is a promising system to be used in prenatal and postnatal diagnosis of mtDNA-associated disorders.     

Sepsis Associated Encephalopathy Studied by MRI and Cerebral Spinal Fluid S100B Measurement

The pathogenesis of sepsis associated encephalopathy (SAE) is not yet clear: the blood–brain barrier (BBB) disruption has been indicated among the possible causative mechanisms. S100B, a calcium binding protein, originates in the central nervous system but it can be also produced by extra-cerebral sources; it is passively released from damaged glial cells and neurons; it has limited passage through the BBB. We aimed to demonstrate BBB damage as part of the pathogenesis of SAE by cerebral spinal fluid (CSF) and serum S100B measurements and by magnetic resonance imaging (MRI). This paper describes four septic patients in whom SAE was clinically evident, who underwent MRI and S100B measurement. We have not found any evidence of CSF-S100B increase. Serum S100B increase was found in three out of four patients. MRI did not identify images attributable to BBB disruption but vasogenic edema, probably caused by an alteration of autoregulation, was diagnosed. S100B does not increase in CSF of septic patients; S100B increase in serum may be due to extracerebral sources and does not prove any injury of BBB. MRI can exclude other cerebral pathologies causing brain dysfunction but is not specific of SAE. BBB damage may be numbered among the contributors of SAE, which aetiology is certainly multifactorial: an interplay between the toxic mediators involved in sepsis and the indirect effects of hyperthermia, hypossia and hypoperfusion.     

The flavonoid quercetin induces changes in mitochondrial permeability by inhibiting adenine nucleotide translocase

This study shows the effects of the flavonoid quercetin on diverse mitochondrial functions, among them membrane permeability. Our findings indicate that the addition of 50 μM quercetin did not produce reactive oxygen derived species; however, it inhibited the oxidative stress induced after the addition of Fe²/H₂O₂ by about 38%. At this concentration, quercetin also promoted a fast calcium release, inhibited oxidative phosphorylation, stimulated oxygen consumption, and decreased membrane potential. In addition 50 μM quercetin inhibited the adenine nucleotide translocase (ANT) by 46%. These effects induced the opening of the permeability transition pore and release of cytochrome c, by its interaction with a component of the non-specific pore complex, fixed to the carrier in the conformation c, as carboxyatractyloside does. Quercetin-induced permeability transition pore opening was inhibited by 0.5 μM cyclosporin A, but, interestingly, the release of cytochrome c was not inhibited by the immunosuppressor, as quercetin was found to disrupt the outer membrane.