Introduction Fibroblast growth factors (FGFs) are a multipotent family of growth factors that are important for many biological processes, including development and wound healing. Normal, protease sensitive, prion protein (PrPC) can be converted to the protease resistant, infectious, form (PrPSc) believed to be associated with the pathogenesis of transmissible spongiform encephalopathies. FGFs signal through a family of tyrosine kinase receptors, the FGF receptors (FGFR) with the aid of heparan sulfate (HS), while the role of HS in the biology of PrPC is currently unknown, although depleting cells of HS can prevent production of PrPSc. HS, or its more highly sulfated relation heparin, can exert both positive and negative regulatory activities on a particular FGF‐FGFR combination. The nature of this regulation is determined by the structure of the HS that binds to the proteins. This structure is at least partially determined by the presence of particular sulfate groups along the sugar backbone. Identification of specific sulfate groups that can regulate the activity of proteins has been a long‐term goal in the field. Previously, heparins that had been completely lacking sulfates at specific positions were used to determine the binding and activity requirements for a particular protein. However, this may not necessarily allow for a full examination of the regulatory properties of HS. Here, we present a heparan sulfate analogue library produced by the partial, combinatorial desulfation of heparin. This library was the used to examine the structural properties of heparin required for FGF‐1 signalling through FGFR2c as well as the interactions of HS with PrPC. Materials and methods Porcine intestinal mucosal heparin was subjected to chemical desulfation and enzymatic cleavage. Polysaccharides and oligosaccharides derived from gel filtration chromatography and ion exchange chromatography were tested for their ability to activate FGF signalling through FGF receptors using a BaF3 assay system. Optical biosensors and cell assays were used to study the interaction of PrPC with chemically modified heparin. Results This library possessed vastly more heterogeneity than tissue heparan sulfates, allowing for more systematic screening to help identify those minimal structural features associated with activity. This library was used to examine the different structural features in heparin that support FGF‐1 signalling through FGFR2, showing that HS activity was not strictly dependant on size or charge. In addition, small, low‐sulfated heparins were found to interfere with the PrPC–heparin interaction. Discussion This supports the idea that overall structural features of the HS, rather than just the presence or absence of specific sulfate groups is important for the regulation of protein activity. Future efforts will be focused on further subfractionating the library and identifying specific structural features in HS that support FGF‐1 activity through FGFR2 and other FGFRs as well as the role of HS in the normal function of prion diseases, which may allow for the generation of novel, heparin‐based, therapeutics. 相似文献
Human adenocarcinoma (AC) is the most frequently diagnosed human lung cancer, and its absolute incidence is increasing dramatically. Compared to human lung AC, the A/J mouse-urethane model exhibits similar histological appearance and molecular changes. We examined the gene expression profiles of human and murine lung tissues (normal or AC) and compared the two species' datasets after aligning approximately 7500 orthologous genes. A list of 409 gene classifiers (P value <0.0001), common to both species (joint classifiers), showed significant, positive correlation in expression levels between the two species. A number of previously reported expression changes were recapitulated in both species, such as changes in glycolytic enzymes and cell-cycle proteins. Unexpectedly, joint classifiers in angiogenesis were uniformly down-regulated in tumor tissues. The eicosanoid pathway enzymes prostacyclin synthase (PGIS) and inducible prostaglandin E(2) synthase (PGES) were joint classifiers that showed opposite effects in lung AC (PGIS down-regulated; PGES up-regulated). Finally, tissue microarrays identified the same protein expression pattern for PGIS and PGES in 108 different non-small cell lung cancer biopsies, and the detection of PGIS had statistically significant prognostic value in patient survival. Thus, the A/J mouse-urethane model reflects significant molecular details of human lung AC, and comparison of changes in orthologous gene expression may provide novel insights into lung carcinogenesis. 相似文献
This study compares two different sport events (orienteering = OTC; tennis = TEC) with discontinuous load profiles and different
activity/recovery patterns by means of blood lactate (LA), heart rate (HR), and respiratory gas exchange measures (RGME) determined
via a portable respiratory system. During the TEC, 20 tennis-ranked male subjects [age: 26.0 (3.7) years; height: 181.0 (5.7) cm;
weight: 73.2 (6.8) kg; maximal oxygen consumption (V˙O2max): 57.3 (5.1) ml·kg−1·min−1] played ten matches of 50 min. During the OTC, 11 male members of the Austrian National Team [age: 23.5 (3.9) years; height:
183.6 (6.8) cm; weight: 72.4 (3.9) kg; V˙O2max: 67.9 (3.8) ml·kg−1·min−1] performed a simulated OTC (six sections; average length: 10.090 m). In both studies data from the maximal treadmill tests
(TT) were used as reference values for the comparison of energy expenditure of OTC and TEC. During TEC, the average V˙O2 was considerably lower [29.1 (5.6) ml·kg−1·min−1] or 51.1 (10.9)% of VO2max and 64.8.0 (13.3)% of V˙O2 determined at the individual anaerobic threshold (IAT) on the TT. The short high-intensity periods (activity/recovery = 1/6)
did not result in higher LA levels [average LA of games: 2.07 (0.9) mmol·l−1]. The highest average V˙O2 value for a whole game was 47.8 ml·kg−1·min−1 and may provide a reference for energy demands required to sustain high-intensity periods of tennis predominately via aerobic
mechanism of energy delivery. During OTC, we found an average V˙O2 of 56.4 (4.5) ml·kg−1·min−1 or 83.0 (3.8)% of V˙O2max and 94.6 (5.2)% of V˙O2 at IAT. In contrast to TEC, LA were relatively high [5.16 (1.5) mmol·l−1) although the average V˙O2 was significantly lower than V˙O2 at IAT. Our data suggest that portable RGEM provides valuable information concerning the energy expenditure in sports that
cannot be interpreted from LA or HR measures alone. Portable RGEM systems provide valuable assessment of under- or over-estimation
of requirements of sports and assist in the optimization and interpretation of training in athletes.
Electronic Publication 相似文献
Summary: This study describes the chain extension, with polycaprolactone diols, of polyurethane‐graft‐poly(butyl acrylate)s which were first prepared by the step growth polymerization of a mixture of diphenylmethane‐4,4′‐diisocyanate (MDI) and α,α′‐dihydroxyl‐poly(butyl acrylate)s. The success of the chain extension reaction was studied and confirmed by 1H NMR, SEC and DSC analysis. The incorporation of polycaprolactone sequences in the polyurethane chains modified their specific adhesive properties, bringing cohesion to the material, as demonstrated by tack measurements.
To identify the most rapid and reliable technique for recovery and identification of Staphylococcus aureus small-colony variants (SCVs), the colonial appearance of 106 isolates representing SCVs and the normal phenotype were evaluated on two newly described chromogenic agar media. Although almost all of the SCVs grew on the chromogenic agar media, they did not exhibit a change of color. In comparison with conventional media, S. aureus ID agar (SAID; bioMerieux, La Balme Les Grottes, France) showed the most reliable results, with 49 of 53 SCVs tested growing either as an SCV colony or with a normal phenotype after only 24 h of incubation. Growth of SCVs was often not detected before 72 h of incubation on some of the media tested. In conclusion, the most accurate and rapid method to detect both the species S. aureus and the SCV phenotype is to inoculate specimens onto both Columbia blood agar and SAID. 相似文献
Continuing medical education (CME) is being pressured to change in response to increasing and changing educational needs of practicing physicians, fostered by technical innovations, evolution of practice styles, and the reorganization of health care delivery. Leadership in the reform of CME falls primarily to the medical specialty societies in light of their traditional responsibilities for accrediting CME and maintaining professional standards. To address the need for reform, the American College of Obstetricians and Gynecologists in 1997 organized a conference to assemble CME program administrators from several medical specialties and academicians with expertise in postgraduate learning. At the conference, issues facing CME were examined. The authors, who were conference participants, state and explain eight principles that emerged from conference discussions. (For example: "Educational activities should be supportive of and coordinated with the transition to evidence-based medicine.") The principles reflect the interspecialty and interdisciplinary consensus achieved by the conference participants and can serve as useful guideposts for educators as they work to improve CME in their institutions. The authors conclude by noting the need for a more systematic and rigorously analytic approach, where CME content is determined according to assessed needs and CME is evaluated by measuring outcomes; for this to happen, CME educators and faculty must be brought up to date through training, including the use of problem-based learning. CME must also instill collegiality, interaction, and collaboration into the learning environment instead of being a solitary learning activity. Finally, CME must not only emphasize the acquisition of knowledge but also instruct physicians in the process of decision making to help them better use their knowledge as they make clinical judgments. 相似文献