Cardiac myocytes' dynamic contractile behavior differs depending on heart segment

Cardiac myocytes originating from different parts of the heart exhibit varying morphology and ultrastructure. However, the difference in their dynamic behavior is unclear. We examined the contraction of cardiac myocytes originating from the apex, ventricle, and atrium, and found that their dynamic behavior, such as amplitude and frequency of contraction, differs depending on the heart segment of origin. Using video microscopy and high‐precision image correlation, we found that: (1) apex myocytes exhibited the highest contraction rate (～17 beats/min); (2) ventricular myocytes exhibited the highest contraction amplitude (～5.2 micron); and (3) as myocyte contraction synchronized, their frequency did not change significantly, but the amplitude of contraction increased in apex and ventricular myocytes. In addition, as myocyte cultures mature they formed contractile filaments, further emphasizing the difference in myocyte dynamics is persistent. These results suggest that the dynamic behavior (in addition to static properties) of myocytes is dependent on their segment of origin. Biotechnol. Bioeng. 2013; 110: 628–636. © 2012 Wiley Periodicals, Inc.     

Conservation of lipid functions in cytochrome bc complexes

Lipid binding sites and properties are compared in two sub-families of hetero-oligomeric membrane protein complexes known to have similar functions in order to gain further understanding of the role of lipid in the function, dynamics, and assembly of these complexes. Using the crystal structure information for both complexes, we compared the lipid binding properties of the cytochrome b₆f and bc₁ complexes that function in photosynthetic and respiratory membrane energy transduction. Comparison of lipid and detergent binding sites in the b₆f complex with those in bc₁ shows significant conservation of lipid positions. Seven lipid binding sites in the cyanobacterial b₆f complex overlap three natural sites in the Chlamydomonas reinhardtii algal complex and four sites in the yeast mitochondrial bc₁ complex. The specific identity of lipids is different in b₆f and bc₁ complexes: b₆f contains sulfoquinovosyldiacylglycerol, phosphatidylglycerol, phosphatidylcholine, monogalactosyldiacylglycerol, and digalactosyldiacylglycerol, whereas cardiolipin, phosphatidylethanolamine, and phosphatidic acid are present in the yeast bc₁ complex. The lipidic chlorophyll a and β-carotene (β-car) in cyanobacterial b₆f, as well as eicosane in C. reinhardtii, are unique to the b₆f complex. Inferences of lipid binding sites and functions were supported by sequence, interatomic distance, and B-factor information on interacting lipid groups and coordinating amino acid residues. The lipid functions inferred in the b₆f complex are as follows: (i) substitution of a transmembrane helix by a lipid and chlorin ring, (ii) lipid and β-car connection of peripheral and core domains, (iii) stabilization of the iron-sulfur protein transmembrane helix, (iv) n-side charge and polarity compensation, and (v) β-car-mediated super-complex with the photosystem I complex.     

Characterization of NMCR-2, a new non-mobile colistin resistance enzyme: implications for an MCR-8 ancestor

MCR-4 and MCR-8 are two recently identified members of an ongoing MCR family of colistin resistance. Although that aquatic reservoir for MCR-4 is proposed, the origin and mechanism of MCR-8 is poorly understood. Here we report a previously unrecognized non-mobile colistin resistance enzyme, termed NMCR-2, originating from the plant pathogen Kosakonia pseudosacchari. NMCR-2 (551aa) gives 67.3% identity to MCR-8 (565aa). NMCR-2 is placed as a progenitor/ancestor for MCR-8 in phylogeny of MCR members. Genetic study reveals that nmcr-2 is comparable to mcr-8 in the ability of producing phenotypic colistin resistance. Biochemical analyses determine that these two enzymes catalyse the transfer of PEA from the donor PE lipid substrate to the recipient lipid A molecule by a putative ‘ping-pong’ trade-off. Further experiment of protein engineering demonstrates that the two motifs (TM region and catalytic domain) of NMCR-2 are functionally exchangeable with that of MCR-8, rather than MCR-1. Physiological impacts of nmcr-2 and/or mcr-8 are detected in Escherichia coli, featuring with fitness cost. Evidently, the action and mechanism of NMCR-2 is analogous to that of MCR-8. Therefore, our finding underlines that NMCR-2 might be a possible progenitor of MCR-8.     

A Novel Method for Localizing Reporter Fluorescent Beads Near the Cell Culture Surface for Traction Force Microscopy

PA gels have long been used as a platform to study cell traction forces due to ease of fabrication and the ability to tune their elastic properties. When the substrate is coated with an extracellular matrix protein, cells adhere to the gel and apply forces, causing the gel to deform. The deformation depends on the cell traction and the elastic properties of the gel. If the deformation field of the surface is known, surface traction can be calculated using elasticity theory. Gel deformation is commonly measured by embedding fluorescent marker beads uniformly into the gel. The probes displace as the gel deforms. The probes near the surface of the gel are tracked. The displacements reported by these probes are considered as surface displacements. Their depths from the surface are ignored. This assumption introduces error in traction force evaluations. For precise measurement of cell forces, it is critical for the location of the beads to be known. We have developed a technique that utilizes simple chemistry to confine fluorescent marker beads, 0.1 and 1 µm in diameter, in PA gels, within 1.6 μm of the surface. We coat a coverslip with poly-D-lysine (PDL) and fluorescent beads. PA gel solution is then sandwiched between the coverslip and an adherent surface. The fluorescent beads transfer to the gel solution during curing. After polymerization, the PA gel contains fluorescent beads on a plane close to the gel surface.     

Inhibition of PTEN Gene Expression by Oncogenic miR-23b-3p in Renal Cancer

Background

miR-23b is located on chromosome number 9 and plays different roles in different organs especially with regards to cancer development. However, the functional significance of miR-23b-3p in renal cell carcinoma (RCC) has not been reported.

Methods and Results

We measured miR-23b-3p levels in 29 pairs of renal cell carcinoma and their normal matched tissues using real-time PCR. The expression level of miR-23b-3p was correlated with the 5 year survival rate of renal cancer patients. In 15 cases (52%), miR-23b-3p expression was found to be high. All patients with moderate to low miR-23b-3p expression survived 5 years, while those with high miR-23b-3p expression, only 50% survived. After knocking down miRNA-23b-3p expression in RCC cell lines, there was an induction of apoptosis and reduced invasive capabilities. MiR-23b-3p was shown to directly target PTEN gene through 3′UTR reporter assays. Inhibition of miR-23b-3p induces PTEN gene expression with a concomitant reduction in PI3-kinase, total Akt and IL-32. Immunohistochemistry showed the lack of PTEN protein expression in cancerous regions of tissue samples where the expression of miR-23b-3p was high. We studied the in vitro effects of the dietary chemo preventive agent genistein on miR-23b-3p expression and found that it inhibited expression of miR-23b-3p in RCC cell lines.

Conclusions

The current study shows that miR-23b-3p is an oncogenic miRNA and inhibits PTEN tumor suppressor gene in RCC. Therefore, inhibition of miR-23b-3p may be a useful therapeutic target for the treatment of renal cell carcinoma.     

Lipid functions in cytochrome bc complexes: an odd evolutionary transition in a membrane protein structure

Lipid-binding sites and properties were compared in the hetero-oligomeric cytochrome (cyt) b₆f and the yeast bc₁ complexes that function, respectively, in photosynthetic and respiratory electron transport. Seven lipid-binding sites in the monomeric unit of the dimeric cyanobacterial b₆f complex overlap four sites in the Chlamydomonas reinhardtii algal b₆f complex and four in the yeast bc₁ complex. The proposed lipid functions include: (i) interfacial–interhelix mediation between (a) the two 8-subunit monomers of the dimeric complex, (b) between the core domain (cyt b, subunit IV) and the six trans membrane helices of the peripheral domain (cyt f, iron–sulphur protein (ISP), and four small subunits in the boundary ‘picket fence’); (ii) stabilization of the ISP domain-swapped trans-membrane helix; (iii) neutralization of basic residues in the single helix of cyt f and of the ISP; (iv) a ‘latch’ to photosystem I provided by the β-carotene chain protruding through the ‘picket fence’; (v) presence of a lipid and chlorophyll a chlorin ring in b₆f in place of the eighth helix in the bc₁ cyt b polypeptide. The question is posed of the function of the lipid substitution in relation to the evolutionary change between the eight and seven helix structures of the cyt b polypeptide. On the basis of the known n-side activation of light harvesting complex II (LHCII) kinase by the p-side level of plastoquinol, one possibility is that the change was directed by the selective advantage of p- to n-side trans membrane signalling functions in b₆f, with the lipid either mediating this function or substituting for the trans membrane helix of a signalling protein lost in crystallization.     

Enhanced antibiotic production by Streptomyces sindenensis using artificial neural networks coupled with genetic algorithm and Nelder-Mead downhill simplex

Antibiotic production with Streptomyces sindenensis MTCC 8122 was optimized under submerged fermentation conditions by artificial neural network (ANN) coupled with genetic algorithm (GA) and Nelder-Mead downhill simplex (NMDS). Feed forward back-propagation ANN was trained to establish the mathematical relationship among the medium components and length of incubation period for achieving maximum antibiotic yield. The optimization strategy involved growing the culture with varying concentrations of various medium components for different incubation periods. Under non-optimized condition, antibiotic production was found to be 95 microgram/ml, which nearly doubled (176 microgram/ml) with the ANN-GA optimization. ANN-NMDS optimization was found to be more efficacious, and maximum antibiotic production (197 microgram/ml) was obtained by cultivating the cells with (g/l) fructose 2.7602, MgSO4 1.2369, (NH4)2PO4 0.2742, DL-threonine 3.069%, and soyabean meal 1.952%, for 9.8531 days of incubation, which was roughly 12% higher than the yield obtained by ANN coupled with GA under the same conditions.     

Molecular phylogeny of Pakistani riverine buffalo based on genetic variability of mitochondrial cytochrome b gene

Mitochondrial cytochrome b gene is considered to be one of the best markers for breed characterization as well as studying the ancestry in the vertebrates due to its exclusive maternal inheritance. DNA fingerprinting by single nucleotide polymorphism is most reliable and widely used molecular technique in modern forensics and is being considered in this study. Partial sequencing of 1,061?bp of aforementioned gene from 14580 to 15643 was conducted in two famous Pakistani buffalo breeds named Nili-Ravi and Kundi. In which we explore seven haplotypes within earlier and none in the latter breed. Nili-Ravi is polymorphic at four codons of this gene, and the protein translation is also different from the reference sample while monomorphic at three codons with no amino acid replacement. Haplotypes frequency distribution of these four haplotypes named NR3, NR4, NR5, NR7 revealed that the prevalence of each haplotype is 0.04?% in the Pakistani buffalo population of this Nili-Ravi breed while complete homoplasmy was observed in the Kundi breed population. Nili-Ravi breed of buffalo is genetically more variable than the Kundi breed as far as the gene in subject is concerned. It means later breed has spent more time to propagate its wild type haplotype which make this breed more ancestral as compare to Nili-Ravi. Secondly both breeds share their common ancestors with regional water buffalo rather than the swamp one.