Antisense inhibition of hyaluronan synthase-2 in human osteosarcoma cells inhibits hyaluronan retention and tumorigenicity

Osteosarcoma is a common malignant bone tumor associated with childhood and adolescence. The results of numerous studies have suggested that hyaluronan plays an important role in regulating the aggressive behavior of various types of cancer cells. However, no studies have addressed hyaluronan with respect to osteosarcomas. In this investigation, the mRNA expression copy number of three mammalian hyaluronan synthases (HAS) was determined using competitive RT-PCR in the osteoblastic osteosarcoma cell line, MG-63. MG-63 are highly malignant osteosarcoma cells with an abundant hyaluronan-rich matrix. The results demonstrated that HAS-2 is the predominant HAS in MG-63. Accumulation of intracellular hyaluronan increased in association with the proliferative phase of these cells. The selective inhibition of HAS-2 mRNA in MG-63 cells by antisense phosphorothioate oligonucleotides resulted in reduced hyaluronan accumulation by these cells. As expected, the reduction in hyaluronan disrupted the assembly of cell-associated matrices. However, of most interest, coincident with the reduction in hyaluronan, there was a substantial decrease in cell proliferation, a decrease in cell motility and a decrease in cell invasiveness. These data suggest that hyaluronan synthesized by HAS-2 in MG-63 plays a crucial role in osteosarcoma cell proliferation, motility, and invasion.     

Biology of hyaluronan: Insights from genetic disorders of hyaluronan metabolism

Hyaluronan is a rapidly turned over component of the vertebrate extracellular matrix. Its levels are determined, in part, by the hyaluronan synthases, HAS1, HAS2, and HAS3, and three hyaluronidases, HYAL1, HYAL2 and HYAL3. Hyaluronan binding proteins also regulate hyaluronan levels although their involvement is less well understood. To date, two genetic disorders of hyaluronan metabolism have been reported in humans: HYAL1 deficiency(Mucopolysaccharidosis IX) in four individuals with joint pathology as the predominant phenotypic finding and HAS2 deficiency in a single person having cardiac pathology. However, inherited disorders and induced mutations affecting hyaluronan metabolism have been characterized in other species. Overproduction of hyaluronan by HAS2 results in skin folding and thickening in shar-pei dogs and the naked mole rat, whereas a complete deficiency of HAS2 causes embryonic lethality in mice due to cardiac defects. Deficiencies of murine HAS1 and HAS3 result in a predisposition to seizures. Like humans, mice with HYAL1 deficiency exhibit joint pathology. Mice lacking HYAL2 have variably penetrant developmental defects, including skeletal and cardiac anomalies. Thus, based on mutant animal models, a partial deficiency of HAS2 or HYAL2 might be compatible with survival in humans, while complete deficiencies of HAS1, HAS3, and HYAL3 may yet be recognized.     

Cytologic presentation of malignant mesothelioma in pleural effusions

1,601 pleural effusions were found to be malignant between 1976 and 1987. Among these were 26 (1.6% of the malignant effusions) mesothelioma. Only 2 cases showed pronounced cytologic features that made a definite diagnosis possible on cytologic criteria alone. In 20 cases diagnosis of mesothelioma was strongly suggested by the patient's history and cytology of the effusion was compatible with mesothelioma. In the other 4 cases special examinations (histo- and immunohistochemistry, electron microscopy) led to the final diagnosis. The cytologic features of mesothelioma and other examination techniques, needed to resolve the differential diagnosis of mesothelioma versus other neoplasm in pleural effusions, are discussed.     

The distinction of mesothelioma from adenocarcinoma in malignant effusions by electron microscopy

To determine the usefulness of the electron microscopic (EM) differential diagnosis between malignant mesothelioma and metastatic adenocarcinoma in cytologic specimens of serous fluids, we undertook a prospective study of 17 pleural and peritoneal effusions from 14 patients. In the nine effusions identified as malignant by routine cytologic examination, EM correctly diagnosed three mesotheliomas and six adenocarcinomas. EM resolved the differential diagnosis of mesothelioma versus adenocarcinoma in three cases in which routine cytologic examination could not. As with tissue specimens, EM cannot be used to diagnose the malignancy of cytologic specimens; it can, however, reliably identify the origin of cells diagnosed as malignant by routine cytologic examination. We conclude that, when EM is used to evaluate cytologically malignant effusions, it can accurately distinguish mesothelioma from adenocarcinoma. This technique will be diagnostically useful in selected cases and may be helpful in avoiding more invasive procedures as well as delays in diagnosis and therapy.     

Isolation, purification and characterization of hyaluronan from human umbilical cord residues

The main objective of this paper is to discuss new procedures of the isolation of Hyaluronan. Hyaluronic acid can be obtained from human umbilical cord residual, which is obtained from other biopharmaceutical productions. The route involves treatment of human umbilical cord residuals with sodium chloride solution, followed by ammonium quaternary salt solution precipitation; the solid is re-suspended in calcium chloride solution in order to dissociate the hyaluronan ammonium quaternary salt complex followed by ethanol-induced precipitation to give a product. The product was purified four times by chloroform extraction, and characterized by chemical methods such as the Blumenkrantz and Asboe-Hansen uronic technique for uronic acid determination, Elson Morgan qualitative tests for hexosamines, intrinsic viscosity, ion-exchange chromatography, and ¹³C NMR spectroscopy. The results showed that the product might be used in the formulation of ointment, lotion and cream for the treatment of skin diseases.     

Cadherin expression in ovarian carcinoma and malignant mesothelioma cell effusions

OBJECTIVE: To analyze potential differences in cadherin expression between ovarian carcinoma/primary peritoneal carcinoma (OC/PPC) and malignant mesothelioma (MM) at this anatomic site. STUDY DESIGN: MM (N=24) and OC/PPC (N= 53) effusions were analyzed for E-cadherin, N-cadherin and P-cadherin protein expression using immunocytochemistry. RESULTS: Both MM and OC/PPC cells showed frequent expression of all 3 cadherins. OC/PPC specimens expressed E-cadherin and N-cadherin in 52 of 53 cases and P-cadherin in 51 of 53 cases. MM effusions expressed E-cadherin, N-cadherin and P-cadherin in 22 of 24, 21 of24 and 23 of24 cases, respectively. The differences in the percentage of cadherin-positive cells was weakly significant for P-cadherin (higher expression in MM, p = 0.04), but E-cadherin and N-cadherin expression was comparable (p > 0.05). CONCLUSION: MM and OC/PPC coexpress different cadherin family members. P-cadherin, E-cadherin and N-cadherin are not useful for differentiation between OC/PPC and MM in effusions.     

Profiling of the eye aqueous humor in exfoliation syndrome by high-performance liquid chromatographic analysis of hyaluronan and galactosaminoglycans

The concentrations of hyaluronan and galactosaminoglycans - i.e., chondroitin sulfate and dermatan sulfate - were measured in the aqueous humor of the eye from patients with exfoliation syndrome and from healthy persons. The glycosaminoglycans/proteoglycans were almost completely precipitated (>97%) with ethanol in the presence of dextran as carrier and, following enzymic digestion, hyaluronan and galactosaminoglycans, were quantitatively converted to Δ^4,5-disaccharides. Non-degraded heparan sulfate and proteins/glycoproteins were removed by ultrafiltration using a Centricon 3 membrane. Separation and determination of hyaluronan- and galactosaminoglycan-derived Δ-disaccharides were performed by ion-suppression HPLC. For an accurate analysis in triplicate, as little as 50 μl of aqueous humor is required. Application of this method to the analysis of samples from six patients with exfoliation syndrome and three healthy persons showed that hyaluronan levels in patients (6.65–16.15 μg ml⁻¹) were significantly higher (3–8 times) than in healthy persons (2.0–2.24 μg ml⁻¹). There was no significant alteration in the galactosaminoglycan concentration. The obtained data open a new area in the deeper understanding of the exfoliation syndrome pathophysiology and in establishing a highly sensitivity and accurate HPLC method for its diagnosis and patient's follow-up.     

Chain scission of hyaluronan by peroxynitrite

The reaction of peroxynitrite with the biopolymer hyaluronan has been studied using stopped-flow techniques combined with detection of molecular weight changes using the combination of gel permeation chromatography and multiangle laser light scattering. From the effect of peroxynitrite on the yield of hyaluronan chain breaks, it was concluded that the chain breaks were caused by hydroxyl radicals which escape a cage containing the *OH NO*(2) radical pair. The yield of free hydroxyl radicals was determined as 5+/-1% (as a proportion of the total peroxynitrite concentration). At high peroxynitrite concentrations, it was observed that the yield of chain breaks leveled out, an effect largely attributable to the scavenging of hydroxyl radicals by nitrite ions present in the peroxynitrite preparation. These experiments also provided some support for a previous proposal that the adduct formed between ONOOH and ONOO(-) might itself produce hydroxyl radicals. The rate of this reaction would have to be of the order of 0.05 s(-1) to produce hydroxyl radical yields that would account quantitatively for chain break yields at high peroxynitrite concentrations. By carrying out experiments at higher hyaluronan concentrations, it was also concluded that an additional yield of chain breaks was produced by the bimolecular reaction of the polymer with ONOOH at a rate constant of about 10 dm(3)mol(-1)s(-1). At 5.3 x 10(-3)mol dm(-3) hyaluronan, this amounted to 3.5% chain breaks (per peroxynitrite concentration). These conclusions support the proposal that the yield of hydroxyl radicals arising from the isomerization of ONOOH to nitrate ions is relatively low.     

透明质素的标准化研究

透明质素(Hyaluronan)是一种被广泛应用于临床医学领域的粘多糖类物质。有关它的药用标准相继出台。本文引用了欧洲药典2002版以及删拟定的草案对透明质酸钠制定的药用标准。同时提出了建立我国的相应标准所需的检测项目和期望采用的测试手段,为我国开展相关研究提供可供参考的工作平台。     

The decreased secretion of hyaluronan by older human fibroblasts under physiological conditions is mainly associated with the down-regulated expression of hyaluronan synthases but not with the expression levels of hyaluronidases

Although it has been reported that levels of hyaluronan are decreased in the dermis of aged skin, little is known about the cellular mechanism(s) underlying that hyaluronan deficiency. Since hyaluronan is produced by dermal fibroblasts and is secreted into the surrounding dermal tissues, we examined the secretion of hyaluronan by dermal fibroblasts and characterized its cellular mechanism using real-time RT-PCR and western blotting for its synthesizing and degrading enzymes, hyaluronan synthase and hyaluronidase, respectively. The secretion of hyaluronan by dermal fibroblasts derived from differently aged human donors, was higher in the younger human fibroblasts tested (0 and 19 years old) compared to the older human fibroblasts tested (39, 56 and 77 years old). The relative secretion levels of hyaluronan by the different human fibroblasts tested were attributable to the relative expression of hyaluronan synthases 1, 2, 3 but not hyaluronidases 1, 2 enzymes at the gene and protein levels among those fibroblasts. These findings indicate that the deficiency of hyaluronan in the aged dermis might result from the down-regulation in the potential of older human fibroblasts to secrete hyaluronan and that decrease in secretory potential is mainly associated with the down-regulated expression of hyaluronan synthases, especially hyaluronan synthase 2, but not with the expression levels of hyaluronidases.     

Determination of hyaluronan molecular mass distribution in human breast milk

Hyaluronan (HA) in human milk mediates host responses to microbial infection via TLR4- and CD44-dependent signaling. Signaling by HA is generally size specific. Because pure HA with average molecular mass (M) of 35 kDa can elicit a protective response in intestinal epithelial cells, it has been proposed that human milk HA may have a bioactive low-M component. Here we report the size distribution of HA in human milk samples from 20 unique donors. A new method for HA analysis, employing ion exchange (IEX) chromatography to fractionate HA by size and specific quantification of each size fraction by competitive enzyme-linked sorbent assay (ELSA), was developed. When separated into four fractions, milk HA with M ? 20 kDa, M ∼ 20 to 60 kDa, and M ∼ 60 to 110 kDa comprised averages of 1.5, 1.4, and 2.0% of the total HA, respectively. The remaining 95% was HA with M ? 110 kDa. Electrophoretic analysis of the higher M HA from 13 samples showed nearly identical M distributions, with an average M of approximately 440 kDa. This higher M HA component in human milk is proposed to bind to CD44 and to enhance human beta defensin 2 (HBD2) induction by the low-M HA components.     

The distribution of renal hyaluronan and the expression of hyaluronan synthases during water deprivation in the Spinifex hopping mouse, Notomys alexis

Hyaluronan (HA) is a glycosaminoglycan that is synthesized by a family of enzymes called hyaluronan synthases (HASs), of which there are three isoforms (HAS1, 2 and 3) in mammals. The HASs have different tissue expression patterns and function, indicating that synthesis of HA and formation of the HA matrix may be regulated by various factors. The HA matrix has an important role in renal water handling and the production of a concentrated urine. We investigated the distribution of HA and the expression of HAS1, HAS2 and HAS3 mRNAs in the kidney of the Spinifex hopping mouse, Notomys alexis, a native Australian desert rodent that is reported to produce the most concentrated urine of any mammal. After periods of three, seven and fourteen days of water deprivation, the distribution of renal HA changed considerably, and there was a general down-regulation of HAS mRNA expression. It is proposed that the regulation of HA synthesis by the different HAS isoforms during water deprivation in N. alexis, could be influenced by the molecular mass of the HA chains produced by each isoform, followed by the rate at which the individual HAS produces HA.     

Up-regulation of hyaluronan synthase genes in cultured human epidermal keratinocytes by UVB irradiation

Hyaluronan controls keratinocyte proliferation and regeneration. We examined effect of UV on the expression of hyaluronan synthases (HASs) and hyaluronidases in cultured normal human newborn foreskin epidermal keratinocytes, NHEK(F). HAS3 mRNA was expressed predominantly and HAS2 mRNA expressed in lesser amounts and both were up-regulated after a single irradiation with moderate UVB but hyaluronidases was unchanged. Increased accumulation of hyaluronan in the culture medium mirrored the UVB-induced increase in the mRNA levels of HAS3 and HAS2. Unexpectedly, hyaluronan derived from UVB-irradiated and non-irradiated cells had identical size distribution. Increased expression of KGF and IL-1β was detected just prior to the increase of HAS3 and HAS2 mRNAs after UVB irradiation. Antibody-neutralization study revealed that KGF and/or IL-1β were at least involved in the up-regulation of HAS3 and HAS2 expressions. UVB-irradiated cells may enhance hyaluronan production to maintain homeostasis through up-regulation of HAS3 and HAS2 genes via cytokine response mechanism.     

Measurement of high-molecular-weight hyaluronan in solid tissue using agarose gel electrophoresis

The size of hyaluronan in solid tissue was measured using a combination of agarose gel electrophoresis and a radiometric assay. Radiolabeled hyaluronan binding proteins, used in the radiometric assay, were also used to detect hyaluronan after transfer to a nylon membrane following gel electrophoresis. Lane intensity on the autoradiograph was linearly related to the amount applied to the gel between 10 and 100ng. The intensity was independent of the hyaluronan molecular weight for standards with molecular weights equal to or greater than 790,000. The radiometric assay was used to measure hyaluronan irrespective of size, while gel electrophoresis was used to measure hyaluronan with molecular weights greater than 0.79x10(6) or 4x10(6). Deferoxamine was used to inhibit depolymerization during the digestion of tissue samples with protease. The molecular weight pattern was similar for skin, skeletal muscle, heart, lung, small intestine, and large intestine despite large differences in hyaluronan content. For all tissues, 58% of the hyaluronan had a molecular weight greater than 4million. All tissues showed an absence of hyaluronan with a molecular weight below 790,000. The procedure can be used to study changes in hyaluronan size in tissue during inflammation and other pathological states.     

Early diagnosis of mesothelioma in serous effusions using AgNOR analysis

OBJECTIVE: To compare the results of conventional cytology, DNA image cytometry, immunocytochemistry and argyrophilic nucleolar organizer region (AgNOR) analysis for the diagnosis of malignant cells in serous effusions. STUDY DESIGN: One hundred twenty effusions, 40 with carcinoses, 40 with malignant mesotheliomas and 40 without tumor cells on follow-up were studied by conventional cytology and three adjunctive methods. RESULTS: Unequivocal tumor cells were detected in 92.5% of effusions due to carcinoses and in 45% due to mesotheliomas. Applying immunocytochemistry with BerEP-4 positivity and DNA image cytometry with aneuploidy as a marker revealed 100% of carcinoses and 71.7% of mesotheliomas. Applying the experimentally found thresholds of 2.5 AgNORs as "satellites" and 4.5 AgNORs as "satellites and clusters" together as mean values per nucleus resulted in a 95% correct rate of mesothelioma and 100% rate of carcinoma cell identification without false positive diagnoses. CONCLUSION: AgNOR analysis may be a useful adjunct to other methods in the routine diagnosis of malignant serous effusions. It seems to be the most sensitive method in early cytologic diagnosis of mesotheliomas in effusions. Seventy-three percent of malignant mesotheliomas were diagnosed cytologically at first on effusions. Forty-seven percent of patients with malignant mesotheliomas were identified at the early tumor stage T1 N0 M0.     

Cell-matrix interactions of in vitro human skin fibroblasts upon addition of hyaluronan

Normal human skin fibroblasts were grown in a three-dimensional collagen gel or in monolayer in the presence or absence of high molecular weight hyaluronan (HA) to assess the influence of extracellular HA on cell-matrix interactions. HA incorporated into the collagen gel or added to the culture medium did not modify lattice retraction with time. The effect was independent from HA molecular weight (from 7.5 x 10(5) to 2.7 x 10(6) Da) and concentration (from 0.1 up to 1 mg/ml). HA did not affect shape and distribution of fibroblasts within the gel, whereas it induced the actin filaments to organise into thicker cables running underneath the plasma membrane. The same phenomenon was observed in fibroblasts grown in monolayer. By contrast, vimentin cytoskeleton and cell-substrate focal adhesions were not modified by exogenous HA. The number of fibroblasts attached to HA-coated dishes was always significantly lower compared to plastic and to collagen type I-coated plates. By contrast, adhesion was not affected by soluble HA added to the medium nor by anti-CD44 and anti-RHAMM-IHABP polyclonals. After 24-h seeding on collagen type I or on plastic, cells were large and spread. Conversely, cells adherent to HA-coated surfaces were long, thin and aligned into rows; alcian blue showed that cells were attached to the plastic in between HA bundles. Therefore, normal human skin fibroblasts exhibit very scarce, if any, adhesion to matrix HA, either soluble or immobilised. Moreover, even at high concentration, HA molecules do not exert any visco-mechanical effect on lattice retraction and do not interfere with fibroblast-collagen interactions nor with focal adhesion contacts of fibroblasts with the substrate. This is probably relevant in organogenesis and wound repair. By contrast, HA greatly modifies the organisation of the actin cytoskeleton, suggesting that CD44-mediated signal transduction by HA may affect cell locomotion and orientation, as indicated by the fusiform shape of fibroblasts grown in the presence of immobilised HA. A role of HA in cell orientation could be relevant for the deposition of collagen fibrils in regeneration and tissue remodelling.     

Regulation of hyaluronan synthases in mouse uterine cervix

We examined the expression pattern of hyaluronan synthase (HAS) mRNAs in the uterine cervix of pregnant mice. The expression levels of HAS-1 and -2 mRNAs peaked at delivery, whereas that of HAS-3 mRNA peaked on the 15th day of pregnancy. The regulation of HAS mRNA expression was examined in pregnant mouse uterine cervical fibroblasts. The expression of HAS-1, -2, and -3 mRNAs was significantly augmented by interleukin-1beta (IL-1beta). Progesterone significantly interfered with expression of HAS-1 and -2 mRNAs, but significantly increased the expression of HAS-3 mRNA. Low-molecular-weight hyaluronan significantly enhanced only the expression of HAS-1 mRNA. These results indicate that HAS in the uterine cervix is regulated in a complex manner by IL-1beta, progesterone, and low-molecular-weight hyaluronan, of which changes in the cervical tissue and serum closely participate in uterine cervical ripening and/or inflammation.     

Imaging and tracking of single hyaluronan molecules diffusing in solution

Hyaluronan is an important soluble component of the extracellular matrix of many tissues with well known space-filling, lubricating and signaling functions. As such, hyaluronan can regulate cell adhesion, migration, differentiation and proliferation. Ultrastructural studies showed the existence of fibers and networks of hyaluronan molecules at surfaces, while bulk studies of hyaluronan in solution indicated that the polymer forms random coils. Here, we show that single hyaluronan molecules can be visualized and tracked in three-dimensional samples at room temperature in aqueous buffer. Using a wide-field fluorescence microscope equipped with laser excitation and an sensitive and fast EMCCD camera for fluorescence detection, single FITC-labeled hyaluronan molecules from rooster comb were detected in aqueous solutions. Freely moving hyaluronan-FITC could be tracked over up to 20 images acquired at a frame rate of 98 Hz. Analysis of the trajectories revealed Brownian motion of hyaluronan in tris-buffered saline with an average diffusion coefficient D = 3.0 ± 0.2 μm²/s. These observations confirm the concept that hyaluronan molecules form random coils in solution. The possibility of following the tracks of single hyaluronan molecules in solution facilitates the analysis of processes that lead to the formation of more organized forms of hyaluronan and its interactions with cells with very high spatial and temporal accuracy. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.