Gene/Protein Disease Symptom Drug Enzyme Compound
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Rapid freezing followed by freeze-substitution has been used to study the ultrastructure of the myosin filaments of live and demembranated frog sartorius muscle in the states of relaxation and rigor. Electron microscopy of longitudinal sections of relaxed specimens showed greatly improved preservation of thick filament ultrastructure compared with conventional fixation. This was revealed by the appearance of a clear helical arrangement of myosin crossbridges along the filament surface and by a series of layer line reflections in computed Fourier transforms of sections, corresponding to the layer lines indexing on a 43 nm repeat in X-ray diffraction patterns of whole, living muscles. Filtered images of single myosin filaments were similar to those of negatively stained, isolated vertebrate filaments and consistent with a three-start helix. M-line and other non-myosin proteins were also very well preserved. Rigor specimens showed, in the region of overlapping myosin and actin filaments, periodicities corresponding to the 36, 24, 14.4 and 5.9 nm repeats detected in X-ray patterns of whole muscle in rigor; in the H-zone they showed a disordered array of crossbridges. Transverse sections, whose Fourier transforms extend to the (3, 0) reflection, supported the view, based on X-ray diffraction and conventional electron microscopy, that in the overlap zone of relaxed muscle most of the crossbridges are detached from the thin filaments while in rigor they are attached. We conclude that the rapid freezing technique preserves the molecular structure of the myofilaments closer to the in vivo state (as monitored by X-ray diffraction) than does normal fixation.
J Mol Biol 1992 Nov 20
PMID:Structure of the myosin filaments of relaxed and rigor vertebrate striated muscle studied by rapid freezing electron microscopy. 145 58

The toxicity during and following 291 infusions of 19 murine and three human monoclonal antibodies (MoAB) in 177 cancer patients with 10 different malignancies was assessed. Doses ranged from 0.5 to 500 mg administered over 0.25 to 24 hours. Various reactions in varying degrees were observed in 45 (28%) patients during their first MoAb infusion. Nine additional patients experienced toxicity following a subsequent antibody infusion. Antibodies that reacted with circulating cells were associated with toxicity in 20 of 28 (71%) of the first infusions, compared to 24 of 127 (19%) for patients receiving antibodies that did not react with circulating cells. Fevers, rigors, chills, and diaphoresis were observed in 10% to 12% of the patients and were associated with binding to circulating cells. Presumed hypersensitivity reactions, including urticaria, pruritus, bronchospasm, and anaphylaxis occurred in 20 patients (11%). There were five episodes of bronchospasm and a single episode of anaphylaxis. Liver transaminases were elevated in 14%. There was no correlation between dose or infusion rate and toxicity. Murine monoclonal antibodies that are not conjugated to cytotoxic agents can be given with an acceptable frequency of side effects and serious allergic reactions. There is a small risk of anaphylaxis, and one should avoid rapid infusion of high antibody doses in the presence of circulating target cells and/or circulating free antigen.
Mol Biother 1988
PMID:Toxicities associated with monoclonal antibody infusions in cancer patients. 326 51

Ischaemic myocardium undergoes calcium-independent contracture at millimolar tissue ATP, though in actomyosin solutions ATP must be reduced to micromolar before rigor complexes form. This contracture is associated with myosin ATPase activity that may contribute to tissue de-energization. Here we used isolated rat cardiomyocytes permeabilized with digitonin to analyse in parallel how rigor and myosin ATPase activity are modulated by metabolic conditions that develop during ischaemia. At pH 7.1 and 37 degrees C rigor and myosin ATPase showed co-ordinated bell-shaped dependence on ATP concentration over 3-1000 microM. Rigor, but not myosin ATPase, was inhibited by acidosis (pH 6.2), indicating reduced efficiency of cross-bridge cycling, while both parameters were stimulated by ADP (< or = 1 mM) and unaffected by inorganic phosphate (Pi, 30 mM), AMP, Mg2+, lactate or inhibition of adenylate kinase with diadenosine pentaphosphate. Combined acidosis and high ADP inhibited rigor, while Pi attenuated the enhancement of rigor by ADP. Thus, rigor complex formation activates myosin ATPase in the intact myofilament array, modulated by ADP, Pi and acidosis in the ranges that occur in ischaemia. There was no evidence that adenylate kinase might attenuate falling ATP/ADP ratio at the myofilaments. In combination these effects are sufficient to resolve the apparent discrepancy between ATP concentrations triggering rigor in actomyosin and onset of contracture in ischaemic myocardium. Since rigor contracture activates myosin ATPase it is likely to exacerbate ATP depletion and thereby limit vital cell functions. This positive feedback is consistent with the abrupt depletion of ATP observed in individual cardiomyocytes undergoing deenergization contracture.
J Mol Cell Cardiol 1998 Jul
PMID:Modulation of rigor and myosin ATPase activity in rat cardiomyocytes. 971 Aug 3

As the structural database continues to expand, new methods are required to analyse and compare protein structures. Whereas the recognition, comparison, and classification of folds is now more or less a solved problem, tools for the study of constellations of small numbers of residues are few and far between. In this paper, two programs are described for the analysis of spatial motifs in protein structures. The first, SPASM, can be used to find the occurrence of a motif consisting of arbitrary main-chain and/or side-chains in a database of protein structures. The program also has a unique capability to carry out "fuzzy pattern matching" with relaxed requirements on the types of some or all of the matching residues. The second program, RIGOR, scans a single protein structure for the occurrence of any of a set of pre-defined motifs from a database. In one application, spatial motif recognition combined with profile analysis enabled the assignment of the structural and functional class of an uncharacterised hypothetical protein in the sequence database. In another application, the occurrence of short left-handed helical segments in protein structures was investigated, and such segments were found to be fairly common. Potential applications of the techniques presented here lie in the analysis of (newly determined) structures, in comparative structural analysis, in the design and engineering of novel functional sites, and in the prediction of structure and function of uncharacterised proteins.
J Mol Biol 1999 Jan 29
PMID:Recognition of spatial motifs in protein structures. 991 19

Hatchlings of the North American painted turtle (Family Emydidae: Chrysemys picta) typically spend their first winter of life inside a shallow, subterranean hibernaculum (the natal nest) where life-threatening conditions of ice and cold commonly occur. Although a popular opinion holds that neonates exploit a tolerance for freezing to survive the rigors of winter, hatchlings are more likely to withstand exposure to ice and cold by avoiding freezing altogether-and to do so without the benefit of an antifreeze. In the interval between hatching by turtles in late summer and the onset of wintery weather in November or December, the integument of the animals becomes highly resistant to the penetration of ice into body compartments from surrounding soil, and the turtles also purge their bodies of catalysts for the formation of ice. These two adjustments, taken together, enable the animals to supercool to temperatures below those that they routinely experience in nature. However, cardiac function in hatchlings is diminished at subzero temperatures, thereby compromising the delivery of oxygen to peripheral tissues and eliciting an increase in reliance by those tissues on anaerobic metabolism for the provision of ATP. The resulting increase in production of lactic acid may disrupt acid/base balance and lead to death even in animals that remain unfrozen. Although an ability to undergo supercooling may be key to survival by overwintering turtles in northerly populations, a similar capacity to resist inoculation and undergo supercooling characterizes animals from a population near the southern limit of distribution, where winters are relatively benign. Thus, the suite of characters enabling hatchlings to withstand exposure to ice and cold may have been acquired prior to the northward dispersal of the species at the end of the Pleistocene, and the characters may not have originated as adaptations specifically to the challenges of winter.
Comp Biochem Physiol A Mol Integr Physiol 2003 Feb
PMID:Natural freeze-tolerance in hatchling painted turtles? 1254 53

The role of cardiac myosin binding protein-C (MyBP-C) on myocardial stiffness was examined in skinned papillary muscles of wild-type (WT(+/+)) and homozygous truncated cardiac MyBP-C (MyBP-C(t/t) male mice. No MyBP-C was detected by gel electrophoresis or by Western blots in the MyBP-C(t/t) myocardium. Rigor-bridge dependent myofilament stiffness, i.e., rigor minus relaxed stiffness, in the MyBP-C(t/t) myocardium (281 +/- 44 kN/m2) was 44% that in WT(+/+) (633 +/- 141 kN/m2). The center-to-center spacing between thick filaments as determined by X-ray diffraction in MyBP-C(t/t) (45.0 +/- 1.2 nm) was not significantly different from that in WT(+/+) (43.2 +/- 0.9 nm). The fraction of cross-sectional area comprised of myofibrils, as determined by electron microscopy, was reduced in the MyBP-C(t/t) (39.9%) by 10% compared to WT(+/+) (44.5%). These data suggest that the 56% reduction in rigor-bridge dependent stiffness of the skinned MyBP-C(t/t) myocardium could not be due solely to a 10% reduction in the number of thick filaments per cross-sectional area and must also be due to approximately 50% reduction in the stiffness of the rigor-bridge attached thick filaments lacking MyBP-C.
Mol Cell Biochem 2004 Aug
PMID:Reduced cross-bridge dependent stiffness of skinned myocardium from mice lacking cardiac myosin binding protein-C. 1552 68

CG7870 is a replication-selective oncolytic adenovirus genetically engineered to replicate preferentially in prostate tissue. In a previous phase I/II clinical trial of intraprostatic delivery of CG7870 for locally recurrent prostate cancer this virus was well tolerated. In this phase I study CG7870 was administered as a single intravenous infusion in a group-sequential dose escalation design (1 x 10(10) to 6 x 10(12) viral particles (vp)) to 23 patients with hormone-refractory metastatic prostate cancer. Flulike symptoms (fever, fatigue, rigors, nausea, and/or vomiting) were the most common adverse events. Three therapy-related grade 3 adverse events were reported, one of which (fatigue) was serious. At doses greater than 10(12) vp all five patients experienced asymptomatic grade 1 to 2 transaminitis and/or isolated d-dimer elevations starting on day 2 through 8; dose escalation was therefore halted at 6 x 10(12) vp. All tested patients had CG7870 genomes present in the peripheral blood for at least 90 minutes after infusion; patients in the highest dose group had persistence of genomes through 29 days. A "secondary" or "delayed" peak in plasma CG7870 genome copies (defined as a >10-fold increase in CG7870 genomes from nadir concentration) suggestive of active viral replication and shedding into the bloodstream was detected in 16/23 (70%) patients. CG7870 was detected in the saliva of 3 patients, whereas all urine samples tested negative. All patients developed antibodies to CG7870. Dose-related increases in interleukins 6 and 10 (IL-6, IL-10) blood levels were detected. The peak IL-6 concentration after CG7870 treatment was associated with a transient, asymptomatic decrease in blood pressure. No partial or complete prostate-specific antigen (PSA) responses were observed; however, 5 patients had a decrease in serum PSA of 25% to 49% following a single treatment, including 3 of 8 patients at the highest dose levels.
Mol Ther 2006 Jul
PMID:A phase I trial of intravenous CG7870, a replication-selective, prostate-specific antigen-targeted oncolytic adenovirus, for the treatment of hormone-refractory, metastatic prostate cancer. 1669 Mar 59

Ischemic preconditioning has a powerful protective potential against a reperfusion-induced injury of the post-ischemic myocardium. Cardiomyocyte hypercontracture, i.e. excessive cell shortening, is an essential mechanism of the reperfusion-induced injury. Rigor contracture, i.e. Ca(2+)-independent contracture, has been shown to be an import component of the reperfusion-induced hypercontracture. Since rigor contracture is dependent on the rapidity of the metabolic recovery during reoxygenation, we hypothesized that preconditioning of the cardiomyocyte mitochondria may improve mitochondrial function to restore the energy balance during the initial phase of reoxygenation and may thus prevent rigor contracture. For this purpose adult rat cardiomyocytes were exposed to anoxia with subsequent reoxygenation. For preconditioning, cells were pre-treated with the mitochondrial ATP-sensitive K(+) channel opener diazoxide. Pre-treatment with 100 micromol/l diazoxide significantly reduced the reoxygenation-induced hypercontracture of cardiomyocytes due to an attenuation of the Ca(2+)-independent rigor-type contracture, which was accompanied by an acceleration of the phosphocreatine resynthesis during the initial phase of reoxygenation. Treatment with the mitochondrial ATP-sensitive K(+) channel antagonist 5-hydroxydecanoate (500 micromol/l) during preconditioning phase abolished these protective effects. Similarly, partial suppression of the mitochondrial function with 100 micromol/l NaCN during the reoxygenation phase abolished the diazoxide effects. Finally, in isolated rat hearts, preconditioning with diazoxide prior to global ischemia significantly improved left ventricular function and attenuated hypercontracture during reperfusion. This effect could be abolished by the treatment with 100 micromol/l NaCN during reperfusion. Taken together, pharmacological preconditioning of cardiomyocytes with diazoxide protects against the reoxygenation-induced rigor hypercontracture due to an improvement of the energy recovery at the onset of reoxygenation.
J Mol Cell Cardiol 2010 Jan
PMID:Preconditioning with diazoxide prevents reoxygenation-induced rigor-type hypercontracture. 1940 25

Control of blood phenylalanine (Phe) levels throughout the life of a person diagnosed with phenylketonuria (PKU) is the biochemical management strategy necessary to provide the best potential for optimal outcome. Psychosocial support mechanisms comprise the other aspects of PKU management that are necessary to overcome the hurdles of living with this chronic disease and to adhere to the rigors of its management. Additional psychosocial support may be required, in light of increasing evidence that control of blood Phe levels in PKU can still lead to subtle but measurable cognitive function deficits as well as a predisposition to certain psychiatric symptoms and disorders. An all encompassing PKU management strategy that goes beyond simply treating blood Phe levels can empower and enable people born with PKU to achieve similar life goals as those born without PKU. This review looks at PKU management strategies that go beyond treating Phe levels, specifically (1) the roles psychologists play in managing PKU from infancy through adulthood and how they help PKU families and caregivers deal with the disease and the burden of its management; (2) understanding the challenges of transitioning into adulthood as an individual with PKU and addressing unmet needs in this population; (3) how non-traditional practices can be utilized in PKU. The objective is to emphasize that management of PKU goes well beyond addressing the biochemical nature of this disease in order to achieve optimal patient outcomes.
Mol Genet Metab 2010
PMID:Outcomes beyond phenylalanine: an international perspective. 2012 76

Modern humans have occupied almost all possible environments globally since exiting Africa about 100,000 years ago. Both behavioral and biological adaptations have contributed to their success in surviving the rigors of climatic extremes, including cold, strong ultraviolet radiation, and high altitude. Among these environmental stresses, high-altitude hypoxia is the only condition in which traditional technology is incapable of mediating its effects. Inhabiting at >3,000-m high plateau, the Tibetan population provides a widely studied example of high-altitude adaptation. Yet, the genetic mechanisms underpinning long-term survival in this environmental extreme remain unknown. We performed an analysis of genome-wide sequence variations in Tibetans. In combination with the reported data, we identified strong signals of selective sweep in two hypoxia-related genes, EPAS1 and EGLN1. For these two genes, Tibetans show unusually high divergence from the non-Tibetan lowlanders (Han Chinese and Japanese) and possess high frequencies of many linked sequence variations as reflected by the Tibetan-specific haplotypes. Further analysis in seven Tibetan populations (1,334 individuals) indicates the prevalence of selective sweep across the Himalayan region. The observed indicators of natural selection on EPAS1 and EGLN1 suggest that during the long-term occupation of high-altitude areas, the functional sequence variations for acquiring biological adaptation to high-altitude hypoxia have been enriched in Tibetan populations.
Mol Biol Evol 2011 Feb
PMID:Genetic variations in Tibetan populations and high-altitude adaptation at the Himalayas. 2103 Apr 26


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