Effects of mechanical ventilation and portable air cleaner on aerosol removal from dental treatment rooms.

Objectives: To evaluate the mechanical ventilation rates of dental treatment rooms and assess the effectiveness of aerosol removal by mechanical ventilation and a portable air cleaner (PAC) with a high-efficiency particulate air (HEPA) filter.

Methods: Volumetric airflow were measured to assess air change rate per hour by ventilation (ACH). Equivalent ventilation provided by the PAC (ACH) was calculated based on its clean air delivery rate.

The effects of high-dose heparin on inflammatory and coagulation parameters following cardiopulmonary bypass.

Systemic inflammation and the activation of the coagulation system following cardiopulmonary bypass (CPB) may contribute to postoperative complications. In vitro studies have demonstrated that heparin possesses anti-inflammatory properties. To ascertain the relative benefits of high versus low heparin doses, we studied the impact of varying heparin doses on the inflammatory response and coagulation system during and following CPB.

cis-Urocanic acid does not induce the expression of immunosuppressive cytokines in murine keratinocytes.

trans-Urocanic acid (UCA) acts as a chromophore for UV radiation in the epidermis and isomerizes to cis-UCA which then initiates some of the changes leading to UV-induced immunosuppression. The mechanism of the immunomodulation by cis-UCA is unknown at present, but one possibility is that the interaction between cis-UCA and keratinocytes causes the release of immunosuppressive cytokines locally. To test this hypothesis, PAM-212 cells, a murine keratinocyte cell line, were incubated with 0.

The binding of unfractionated heparin and low molecular weight heparin to thrombin-activated human endothelial cells.

The binding of unfractionated heparin to endothelium is thought to be responsible for the rapid and saturable phase of unfractionated heparin clearance. Thrombin can induce endothelial cells to express and/or secrete a number of heparin binding proteins that have the potential to increase the binding of unfractionated heparin and to a lesser extent the binding of low molecular weight heparin. To explore this possibility, we examined the binding of unfractionated heparin and low molecular weight heparin to thrombin-activated endothelial cells.

The effects of standard and low molecular weight heparin on bone nodule formation in vitro.

Previously, we demonstrated in a rat model of heparin-induced osteoporosis that low molecular weight heparin (LMWH) produces less bone loss than unfractionated heparin, and that only heparin increases osteoclast number and activity. In contrast, both heparin and LMWH were found to decrease osteoblast function to a similar extent, possibly because at the doses tested both agents produced maximal inhibition. To examine the relative effects of heparin and LMWH on osteoblast function more closely we used an in vitro bone nodule assay, together with measurements of alkaline phosphatase (ALP) activity.

Induction of the acute-phase reaction increases heparin-binding proteins in plasma.

We have previously demonstrated that the nonspecific binding of unfractionated heparin (UFH) to plasma proteins has a marked modulating effect on its anticoagulant activity. Since some heparin-binding proteins are also acute-phase-reactant proteins, we explored the possibility that the induction of the acute-phase response can increase the plasma concentrations of heparin-binding proteins. The recovery of a fixed amount of UFH or low-molecular-weight heparin (LMWH) added in vitro to rat plasma samples obtained at various time intervals after the administration of intravenous endotoxin or subcutaneous turpentine was compared with that of saline-treated control animals.

Determination of selenium in the serum of healthy Swiss adults and correlation to dietary intake.

The serum selenium (Se) concentrations of apparently healthy 20-40 year old blood donors from different parts of Switzerland were determined by electrothermal atomic absorption spectrometry (GFAAS). Application of a rhodium/magnesium matrix-modifier resulted in improved performance in comparison with a palladium modifier. The method was validated by hydride ICP-MS and quality-controlled by independent analysis using GFAAS with palladium as matrix-modifier; no bias was detected.

Interleukin-8 and melanoma growth-stimulating activity (GRO) are induced by ultraviolet B radiation in human keratinocyte cell lines.

Ultraviolet radiation can induce the transcription and release of cytokines from keratinocytes (KC's). These cytokines have the potential to modulate local and systemic immunologic responses. In this paper we report that northern blotting showed that human KC and KC lines expressed a 1.

Inhibition of cytokine gene expression in mouse skin by subcutaneous injection of cyclosporine.

Cyclosporine A (CsA) has been shown to be an effective therapeutic agent for a wide variety of cutaneous diseases yet its exact mechanism of action is still unclear, although one well-defined effect of CsA is the inhibition of T-cell-derived cytokine expression. We recently demonstrated in vitro that CsA inhibits cell proliferation and suppresses cytokine gene expression in keratinocytes. In this study, we report the in vivo effects of CsA on skin cytokine gene expression as determined by reverse-transcriptase polymerase chain reaction.

Augmentation of interleukin-6 (IL-6) expression in squamous carcinoma cells and normal human keratinocytes treated with recombinant anti-neoplastic protein (ACP).

A protein purified from Eschericheri coli has previously been shown to have cytotoxic effects on neoplastic cells of several lineages both in vitro and in vivo. Accordingly, this protein has been named anti-neoplastic protein (ACP). Although ACP kills neoplastic cells by inducing apoptosis, it has negligible effects on various normal cells.

Nucleotide sequence of mouse HSP60 (chaperonin, GroEL homolog) cDNA.

The cDNA sequence of the 60 kDa heat-shock protein from mouse 3T3 cells has been determined. The deduced amino acid sequence of mouse hsp60 protein differs from the corresponding proteins from Chinese hamster and human cells in 7 and 13 residues, respectively, most of which are conservative replacements.

Nucleotide sequences and novel structural features of human and Chinese hamster hsp60 (chaperonin) gene families.

A number of clones that specifically hybridize to the human hsp60 cDNA (chaperonin protein; GroEL homolog) were isolated from human and Chinese hamster ovary cell genomic libraries. DNA sequence analysis shows that one of these clones, pGem-10, is completely homologous to the human hsp60 cDNA (in both coding and noncoding regions) with no intervening sequences. The other human clones analyzed were all nonfunctional pseudogenes containing numerous small additions, deletions, and base substitutions, but no introns.

Identification of a protein altered in mutants resistant to microtubule inhibitors as a member of the major heat shock protein (hsp70) family.

A major cellular protein (P2; approximately 70 kilodaltons) which is altered in Chinese hamster ovary (CHO) cell mutants resistant to the microtubule inhibitors colchicine and podophyllotoxin has been shown to correspond to the constitutive form of the 70-kilodalton heat shock protein (hsc70). The inference that P2 and hsc70 are the same protein is based on the following observations: (i) migration of P2 in two-dimensional polyacrylamide gels in the same position as that reported for hsc70; (ii) cross-reactivity of a monoclonal antibody which reacts with both the constitutive and induced forms of hsp70 with the P2 spot from wild-type CHO cells and with both P2 and a mutant form of P2 in a CHO cell mutant; (iii) specific reactivity of a polyclonal antibody to P2 with both the constitutive and heat-induced forms of hsp70 in human cells; (iv) identical immunofluorescent staining of dot/patchlike structures with both P2 and hsp70 antibodies in human and CHO cells; and (v) a cDNA clone for hsc70 has been isolated and sequenced from wild-type CHO cells. The in vitro transcription and translation product of this cDNA has been shown to comigrate with the P2 protein spot in two-dimensional gels, indicating their identity.

Effects of antimitotic and antimitochondrial agents on the cellular distribution of microtubules and mitochondria.

Using antibodies to a mitochondrial molecular chaperone class of protein, which is specifically altered in mutants resistant to microtubule (MT) inhibitors, the effect of a number of MT and mitochondrial inhibitors on the cellular distribution of mitochondria and various cytoskeletal filaments was examined. Treatment of Chinese hamster ovary (CHO) or chicken embryo fibroblast (CEF) cells with the MT inhibitors podophyllotoxin, colchicine, nocodazole and vinblastine caused depolymerization of cellular MTs, but had no significant effect on the distribution patterns of mitochondria. This is attributed to the association of mitochondria with intermediate filaments (IFs) which are not destroyed under these conditions.

Genetic and biochemical studies with mutants of mammalian cells affected in microtubule-related proteins other than tubulin: mitochondrial localization of a microtubule-related protein.

In Chinese hamster ovary cells, stable mutants exhibiting specific resistance or collateral sensitivity towards the various microtubule inhibitors podophyllotoxin, colchicine, griseofulvin, taxol, nocodazole, vinblastine, and maytansine have been isolated. A number of independent mutants selected for resistance to podophyllotoxin and colchicine contain electrophoretically altered forms of two proteins, P1 and P2, of relative molecular masses of approximately 63 000 and 69 000, respectively. The proteins P1 and P2 have been shown to be microtubule related by a number of different genetic and biochemical criteria and are among the major proteins of Chinese hamster ovary cells, being present in approximately equimolar amounts with tubulin.