Mary K Cowman

Publications (10)37.53 Total impact

• Article: Agarose and polyacrylamide gel electrophoresis methods for molecular mass analysis of 5- to 500-kDa hyaluronan.

  Shardul Bhilocha, Ripal Amin, Monika Pandya, Han Yuan, Mihir Tank, Jaclyn LoBello, Anastasia Shytuhina, Wenlan Wang, Hans-Georg Wisniewski, Carol de la Motte, Mary K Cowman
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  ABSTRACT: Agarose and polyacrylamide gel electrophoresis systems for the molecular mass-dependent separation of hyaluronan (HA) in the size range of approximately 5-500 kDa were investigated. For agarose-based systems, the suitability of different agarose types, agarose concentrations, and buffer systems was determined. Using chemoenzymatically synthesized HA standards of low polydispersity, the molecular mass range was determined for each gel composition over which the relationship between HA mobility and logarithm of the molecular mass was linear. Excellent linear calibration was obtained for HA molecular mass as low as approximately 9 kDa in agarose gels. For higher resolution separation, and for extension to molecular masses as low as approximately 5 kDa, gradient polyacrylamide gels were superior. Densitometric scanning of stained gels allowed analysis of the range of molecular masses present in a sample as well as calculation of weight-average and number-average values. The methods were validated for polydisperse HA samples with viscosity-average molecular masses of 112, 59, 37, and 22 kDa at sample loads of 0.5 μg (for polyacrylamide) to 2.5 μg (for agarose). Use of the methods for electrophoretic mobility shift assays was demonstrated for binding of the HA-binding region of aggrecan (recombinant human aggrecan G1-IGD-G2 domains) to a 150-kDa HA standard.
  Analytical Biochemistry 05/2011; 417(1):41-9. · 3.00 Impact Factor
• Article: Improved agarose gel electrophoresis method and molecular mass calculation for high molecular mass hyaluronan.

  Mary K Cowman, Cherry C Chen, Monika Pandya, Han Yuan, Dianne Ramkishun, Jaclyn LoBello, Shardul Bhilocha, Sparkle Russell-Puleri, Eraldi Skendaj, Jovan Mijovic, Wei Jing
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  ABSTRACT: The molecular mass of the polysaccharide hyaluronan (HA) is an important determinant of its biological activity and physicochemical properties. One method currently used for the analysis of the molecular mass distribution of an HA sample is gel electrophoresis. In the current work, an improved agarose gel electrophoresis method for analysis of high molecular mass HA is presented and validated. HA mobility in 0.5% agarose minigels was found to be linearly related to the logarithm of molecular mass in the range from approximately 200 to 6000 kDa. A sample load of 2.5 μg for polydisperse HA samples was employed. Densitometric scanning of stained gels allowed analysis of the range of molecular masses present in the sample as well as calculation of weight-average and number-average values. The method was validated for a polydisperse HA sample with a weight-average molecular mass of approximately 2000 kDa. Excellent agreement was found between the weight-average molecular mass determined by electrophoresis and that determined by rheological measurement of the solution viscosity. The revised method was then used to show that heating solutions of HA at 100°C, followed by various cooling procedures, had no effect on the HA molecular mass distribution.
  Analytical Biochemistry 05/2011; 417(1):50-6. · 3.00 Impact Factor
• Article: Transfer of inter-alpha-inhibitor heavy chains to hyaluronan by surface-linked hyaluronan-TSG-6 complexes.

  Elisa Colón, Anastasia Shytuhina, Mary K Cowman, Philip A Band, Kristian W Sanggaard, Jan J Enghild, Hans-Georg Wisniewski
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  ABSTRACT: Inter-alpha-inhibitor, TSG-6, and hyaluronan have important functions in fertility and inflammation. Two subunits of inter-alpha-inhibitor, the heavy chains, form covalent bonds with TSG-6 or hyaluronan in vitro. TSG-6-heavy chain complexes serve as intermediates in the transfer of heavy chains from inter-alpha-inhibitor to hyaluronan. In vivo, in addition to these complexes, stable ternary complexes of hyaluronan with both TSG-6 and heavy chains have been demonstrated in the ovulatory cumulus oophorus. In our ongoing efforts to characterize the multiple interactions between hyaluronan, TSG-6 and inter-alpha-inhibitor, we recently characterized the formation of highly stable complexes of TSG-6 with hyaluronan that had been tethered to a solid surface. Here we show that these hyaluronan-TSG-6 complexes are functionally active and transfer heavy chain subunits from inter-alpha-inhibitor to either free or surface-bound hyaluronan. Transitional hyaluronan-TSG-6-heavy chain complexes do not accumulate in vitro. Our data show the capability for heavy chain transfer by both free TSG-6 and preformed hyaluronan-TSG-6 complexes, suggesting that both might contribute to hyaluronan modification in vivo. Transfer of heavy chains to surface-tethered hyaluronan by either free TSG-6 or surface-tethered hyaluronan-TSG-6 complexes did not affect the CD 44-mediated binding of BW 5147 cells in vitro. We show how TSG-6 and hyaluronan together can deplete inter-alpha-inhibitor and generate bikunin, as has been observed in sepsis, and discuss the role of TSG-6 in the generation of hyaluronan-heavy chain complexes associated with ovulation, arthritis, and sepsis.
  Journal of Biological Chemistry 12/2008; 284(4):2320-31. · 4.77 Impact Factor
• Article: Hyaluronan conformations on surfaces: effect of surface charge and hydrophobicity.

  Chiara Spagnoli, Alexander Korniakov, Abraham Ulman, Endre A Balazs, Yuri L Lyubchenko, Mary K Cowman
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  ABSTRACT: Extended, relaxed, condensed, and interacting forms of the polysaccharide hyaluronan have been observed by atomic force microscopy (AFM). The types of images obtained depend on the properties of the surfaces used. We have investigated several different surface conditions for HA imaging, including unmodified mica, mica chemically modified with two different kinds of amino-terminated silanes (3-aminopropyltriethoxysilane and N-trimethoxysilylpropyl-N,N,N-trimethylammonium chloride), and highly oriented pyrolytic graphite. We found the degree of HA molecular extension or condensation to be variable, and the number of bound chains per unit area was low, for all of the mica-based surfaces. HA was more easily imaged on graphite, a hydrophobic surface. Chains were frequently observed in high degrees of extension, maintained by favorable interaction with the surface after molecular combing. This observation suggests that the HA macromolecule interacts with graphite through hydrophobic patches along its surface. AFM studies of HA behavior on differing surfaces under well-controlled environmental conditions provides useful insight into the variety of conformations and interactions likely to be found under differing physiological conditions.
  Carbohydrate Research 05/2005; 340(5):929-41. · 2.33 Impact Factor
• Article: Experimental approaches to hyaluronan structure.

  Mary K Cowman, Shiro Matsuoka
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  ABSTRACT: A review of the literature describing experimental studies on hyaluronan (HA) is presented. Methods sensitive to the hydrodynamic properties of HA, analyzed in neutral aqueous solution containing NaCl at physiological concentration, can be shown to fit the expected behavior of a high molecular weight linear semi-flexible polymer. The significant nonideality of HA solutions can be predicted by a simple treatment for hydrodynamic interactions between polymer chains. Nuclear magnetic resonance and circular dichroism studies of HA are also in agreement with a model incorporating dynamically formed and broken hydrogen bonds, contributing to the semi-flexibility of the polymer chain, and segmental motions on the nanosecond time scale. HA shows the capability for self-association in the formation of a viscoelastic putty state at pH 2.5 in the presence of salt, and a gel state at pH 2.5 in mixed organic/aqueous solution containing salt. Ordered and associated structures have also been observed for HA on the surfaces, especially in the presence of surface-structured water. These phenomena can be understood in terms of counterion-mediated polyelectrolyte interactions. The possibility that hyaluronan exists in vivo in environments that induce ordered structures and assemblies is discussed.
  Carbohydrate Research 05/2005; 340(5):791-809. · 2.33 Impact Factor
• Source

  Available from: ncbi.nlm.nih.gov

  Article: Extended, relaxed, and condensed conformations of hyaluronan observed by atomic force microscopy.

  Mary K Cowman, Chiara Spagnoli, Dina Kudasheva, Min Li, Ansil Dyal, Sonoko Kanai, Endre A Balazs
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  ABSTRACT: The conformation of the polysaccharide hyaluronan (HA) has been investigated by tapping mode atomic force microscopy in air. HA deposited on a prehydrated mica surface favored an extended conformation, attributed to molecular combing and inhibition of subsequent chain recoil by adhesion to the structured water layer covering the surface. HA deposited on freshly cleaved mica served as a defect in a partially structured water layer, and favored relaxed, weakly helical, coiled conformations. Intramolecularly condensed forms of HA were also observed, ranging from pearl necklace forms to thick rods. The condensation is attributed to weak adhesion to the mica surface, counterion-mediated attractive electrostatic interactions between polyelectrolytes, and hydration effects. Intermolecular association of both extended and condensed forms of HA was observed to result in the formation of networks and twisted fibers, in which the chain direction is not necessarily parallel to the fiber direction. Whereas the relaxed coil and partially condensed conformations of HA are relevant to the native structure of liquid connective tissues, fully condensed rods may be more relevant for HA tethered to a cell surface or intracellular HA, and fibrous forms may be relevant for HA subjected to shear flow in tight intercellular spaces or in protein-HA complexes.
  Biophysical Journal 02/2005; 88(1):590-602. · 3.65 Impact Factor
• Source

  Available from: uni-muenchen.de

  Article: Structure of carbohydrate-bound polynuclear iron oxyhydroxide nanoparticles in parenteral formulations.

  Dina S Kudasheva, Jriuan Lai, Abraham Ulman, Mary K Cowman
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  ABSTRACT: Intravenous iron therapy is used to treat anemia associated with chronic kidney disease. The chemical structures of parenteral iron agents have not been characterized in detail, and correlations between structure, efficiency of iron delivery, and toxicity via catalysis of oxygen-derived free radical creation remain to be established. In this study, two formulations of parenteral iron have been characterized by absorption spectroscopy, X-ray diffraction analysis (XRD), transmission electron microscopy (TEM), atomic force microscopy (AFM), and elemental analysis. The samples studied were Venofer (Iron Sucrose Injection, USP) and Ferrlecit (Sodium Ferric Gluconate in Sucrose Injection). The 250-800-nm absorption spectra and the XRD patterns showed that both formulations contain a mineral core composed of iron oxyhydroxide in the beta-FeOOH mineral polymorph known as akaganeite. This was further confirmed for each formulation by imaging using TEM and AFM. The average core size for the nanoparticles, after dialysis to remove unbound or loosely bound carbohydrate, was approximately 3+/-2 nm for the iron-sucrose, and approximately 2+/-1 nm for the iron-gluconate. Each of the nanoparticles consists of a mineral core, surrounded by a layer of bound carbohydrate. The overall diameter of the average bead in the dialyzed preparations was approximately 7+/-4 nm for the iron-sucrose, and 3+/-1 nm for the iron-gluconate. Undialyzed preparations have particles with larger average sizes, depending on the extent of dilution of unbound and loosely bound carbohydrate. At a dilution corresponding to a final Fe concentration of 5 mg/mL, the average particle diameter in the iron-sucrose formulation was approximately 22+/-9 nm, whereas that of the iron-gluconate formulation was approximately 12+/-5 nm.
  Journal of Inorganic Biochemistry 12/2004; 98(11):1757-69. · 3.35 Impact Factor
• Source

  Available from: Ester Chiessi

  Article: Poly(vinyl alcohol) as versatile biomaterial for potential biomedical applications.

  Gaio Paradossi, Francesca Cavalieri, Ester Chiessi, Chiara Spagnoli, Mary K Cowman
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  ABSTRACT: In this paper, we present some new case examples where the chemical versatility of poly (vinyl alcohol) (PVA) can be used for potential biomedical applications. PVA, the polymeric material used for designing new nanostructured devices, is water soluble, biocompatible and has excellent physical properties. We point out the possibility of obtaining wall-to-wall chemical hydrogels as well as microgels without diminishing the biocompatibility available in the starting PVA material. Injectability is another important factor to take into account in controlled drug delivery for gene therapy. In this respect, in this paper, established and more innovative methods are prospected in order to obtain particles with dimensions suitable for these applications.
  Journal of Materials Science Materials in Medicine 09/2003; 14(8):687-91. · 2.32 Impact Factor
• Source

  Available from: Katja Loos

  Article: Imaging structured water and bound polysaccharide on mica surface at ambient temperature.

  Chiara Spagnoli, Katja Loos, Abraham Ulman, Mary K Cowman
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  ABSTRACT: The presence of a water layer on the surface of muscovite mica under ambient conditions is well established. The water molecules are well ordered and seem to be oriented, leading to an icelike monolayer (probably ferroelectric) in epitaxial relation with the mica surface. We have imaged and characterized the height and contact angle of ordered water layer(s) formed by wetting and de-wetting processes on mica surfaces at different states of hydration by tapping mode atomic force microscopy. Implications that the presence of such an ordered water layer may have for imaging of biological samples are also discussed, with consideration of data for the polysaccharide hyaluronan.
  Journal of the American Chemical Society 07/2003; 125(23):7124-8. · 9.91 Impact Factor
• Article: Vacuum‐ultraviolet circular dichroism of sodium hyaluronate oligosaccharides and polymer segments

  Mary K. Cowman, C. Allen Bush, Endre A. Balazs
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  ABSTRACT: The CD spectrum of an enzymatically derived sodium hyaluronate (NaHA) segment preparation with chain length 18 ± 3 disaccharide units [NaHAseg, ( NaGlcUA GlcNAc)15–20°. NaGlcUA, sodium D-glucuronate; GlcNAc, 2-acetamido-2-deoxy-D-glucose] in H2O was recorded to 180 nm using a computer-controlled vacuum-uv CD instrument. Near 190 nm the spectrum is of low intensity, similar to the sum of the free monosaccharide contributios, attributed to the π–π* transitions of the acetamido and carboxylate substituents. In contrast, much smaller oligosaccharides, also derived from high-molecular-weight NaHA by enzymatic digestions, show CD spectra in H2O with prominent bands centered near 190 nm. The oligosaccharide spectra can be matched as linear combinations of interior sugar residue ( NaHAseg) and end sugar residue CD contributions. End residues from oligosaccharides of the type (NaGlcUA-GlcNAc)n show a negative CD band near 190 nm. End residues from oligosaccharides of the reverse sequence (GlcNAc-NaGlcUA)n show a positive CD band near 190 nm. Averaging of the two end-residue spectral contributions yields an approximate match for the spectrum of NAHAseg below 200 nm. It is proposed that the low intensity CD of NaHA in the π–π* region is the result of large-magnitude, oppositely signed contributions, which can be visulized by studying oligosaccharides.
  Biopolymers 04/1983; 22(5):1319 - 1334. · 2.87 Impact Factor