Investigation of Chondroprotective Mechanisms of Selenium

Cheng, Wai Ming

January 2010

<p>Selenium (Se) is an essential trace element and metalloid involved in several key metabolic activities: protection against oxidative damage, regulation of immune and thyroid function, and fertility. Several recent lines of evidence from epidemiology, genetic, and transgenic animal studies suggest that Se may play a protective role in Osteoarthritis (OA). However, the exact protective mechanism of Se is still unclear. </p><p>In this study, we hypothesized that Se exerts its chondroprotective benefit via an anti-oxidative and anti-inflammatory effect mediated by specific selenoproteins that neutralize cytokine-induced inflammatory responses in chondrocytes. We established an in vitro system for studying the effect of Se in the chondrosarcoma cell line SW-1353 and in human primary chondrocytes. Selenomethionine (SeMet) induced gene expression and enzyme activity of both antioxidative enzymes glutathione peroxidase (GPX) and thioredoxin reductase (TR) in SW-1353 cells. Our data suggest that Se may be protective against oxidative stress through regulation of the activity of these antioxidative enzymes.</p><p>As IL-1&beta; is one of the primary pro-inflammatory cytokines contributing to the progression in OA, we next investigated the effect of Se on the gene expression induced by physiological doses of IL-1&beta;. SeMet inhibited IL-1&beta; induced catabolic gene expression of matrix metalloproteinase 1 (MMP1) and MMP13 as well as total MMP activity in chondrocytes. Similarly, SeMet inhibited chondrocyte gene expression of IL-1&beta; induced nitric oxide synthase (iNOS) and cyclooxygenase (COX2) with corresponding reductions in nitric oxide (NO) and prostaglandin E2 (PGE2) production. In addition, SeMet pretreatment attenuated the IL-1&beta; induced activation of p38 MAPK but not the ERK, JNK or NFkB pathways. Taken together, our results suggest that Se inhibits IL-1&beta; induced expression of inflammatory and catabolic genes, partly through inhibition of IL-1&beta; cell signaling. </p><p>Since Se may function through selenoproteins, we evaluated the role of three specific major selenoproteins, GPX1, TR1 and DIO2, in modifying the inflammatory response stimulated by IL-1&beta; in chondrocytes by RNA interference. Based on RNA interference results, DIO2 and TR1 mediated the inhibitory effect of SeMet on IL-1&beta; induced COX2 gene expression, while GPX1 did not show a significant inhibitory effect on Se. Depletion of DIO2 increased the IL-1&beta; induced COX2 gene expression. This suggests that DIO2 may negatively modulate the IL-1&beta; response. Our data also suggest that part of this inhibitory effect of DIO2 could be through regulation of IL-1&beta; gene expression itself. These results highlight a potential new role of DIO2 in modulating the inflammatory response in chondrocytes </p><p>In summary, the result of this study suggests that Se may exert its chondroprotective effect through specific selenoproteins which neutralize oxidative stress and modify the inflammatory response in chondrocytes.</p> / Dissertation

Pathology

Cellular Biology

Molecular Biology

chondrocyte

COX2

IL-1&beta

inflammation

iNOS

selenium

Análise da coinfecção entre ureaplasmas e o vírus do Papiloma Humano (HPV) em amostras cervicais e em um modelo de estudo \"in vitro\" de queratinócitos primários humanos (PHK). / Analysis of co-infection among ureaplasmas and the Human Papilloma Vírus (HPV) in cervical samples and in a infection model in vitro in primary human keratinocytes (PHK).

Amorim, Aline Teixeira

30 April 2015

O desenvolvimento do câncer cervical depende da exposição ao HPV, fator necessário, mas não suficiente. Outras bactérias, tais como ureaplasmas, têm sido associadas como cofatores. O objetivo deste estudo foi avaliar a presença de ureaplasmas em mulheres com lesão cervical, e observar alterações em PHK causadas pela infecção por ureaplasmas. 140 swabs vaginais foram coletados. O material foi submetido a PCR para a detecção de HPV, Mollicutes, U. urealyticum, U. parvum e seus sorotipos, e outras bactérias de importância ginecológica; e qPCR para U. urealyticum e U. parvum. Também foi realizada a infecção de ureaplasmas em PHK transformados com HPV. As células foram contadas e realizou-se a dosagem das citocinas IL1-&beta;, IL-6 e TNF-&alpha;. HPV, Mollicutes, U. parvum, sorotipos 1 e 6 de U. parvum, T. vaginalis e G. vaginalis, além de alguns fatores socioeconômicos, foram associados com lesão cervical. Verificou-se maior carga de U. parvum entre mulheres com lesão. Houve diminuição do número de células e maior liberação de IL-6 e TNF-&alpha; nos grupos infectados. Com os resultados obtidos neste estudo, foi possível verificar uma associação entre os ureaplasmas e HPV no início das lesões cervicais, contudo mais estudos precisam ser realizados para aprimorar essa hipótese. / The development of cervical cancer depends on the exposure to HPV, necessary factor, but not enough. Other bacteria, such as ureaplasmas, have been associated as cofactors. The aim of this study was to evaluate the presence of ureaplasmas in women with cervical injury, and observe changes in PHK infected by ureaplasmas. 140 vaginal swabs were collected. The material was subjected to PCR for detection of HPV, Mollicutes, Ureaplasma urealyticum, U. parvum (and serotypes) and other bacteria gynecological importance; qPCR for U. urealyticum and U. parvum was made. PHK transformed by HPV was infected by ureaplasma. Cells were counted and it was done titration of IL1-&beta;, IL-6 and TNF-&alpha;. HPV, Mollicutes, U. parvum, serotypes 1 and 6 U. parvum, T. vaginalis and G. vaginalis, and some socioeconomic factors were associated with cervical injury. Besides this, it was detected higher load U. parvum among women with injury. There was decrease in cell number and increased release of IL-6 and TNF-&alpha; in infected groups. With the results of this study, we found an association among HPV and ureaplasmas at the beginning of cervical lesions, but more studies are needed to enhance this hypothesis.

Câncer cervical

Cell growth curve

Cervical câncer

Cervical injury

Curva de crescimento celular

HPV

HPV

IL-1&beta;

IL-1&beta;

IL-6

IL-6

Lesão cervical

PCR

PCR

Primary Human Keratinocytes (PHK)

qPCR

qPCR

Queratinócitos primário humano (PHK)

TNF-&alpha;

TNF-&alpha;

Ureaplasmas

Ureaplasmas

Análise da coinfecção entre ureaplasmas e o vírus do Papiloma Humano (HPV) em amostras cervicais e em um modelo de estudo \"in vitro\" de queratinócitos primários humanos (PHK). / Analysis of co-infection among ureaplasmas and the Human Papilloma Vírus (HPV) in cervical samples and in a infection model in vitro in primary human keratinocytes (PHK).

Aline Teixeira Amorim

30 April 2015

O desenvolvimento do câncer cervical depende da exposição ao HPV, fator necessário, mas não suficiente. Outras bactérias, tais como ureaplasmas, têm sido associadas como cofatores. O objetivo deste estudo foi avaliar a presença de ureaplasmas em mulheres com lesão cervical, e observar alterações em PHK causadas pela infecção por ureaplasmas. 140 swabs vaginais foram coletados. O material foi submetido a PCR para a detecção de HPV, Mollicutes, U. urealyticum, U. parvum e seus sorotipos, e outras bactérias de importância ginecológica; e qPCR para U. urealyticum e U. parvum. Também foi realizada a infecção de ureaplasmas em PHK transformados com HPV. As células foram contadas e realizou-se a dosagem das citocinas IL1-&beta;, IL-6 e TNF-&alpha;. HPV, Mollicutes, U. parvum, sorotipos 1 e 6 de U. parvum, T. vaginalis e G. vaginalis, além de alguns fatores socioeconômicos, foram associados com lesão cervical. Verificou-se maior carga de U. parvum entre mulheres com lesão. Houve diminuição do número de células e maior liberação de IL-6 e TNF-&alpha; nos grupos infectados. Com os resultados obtidos neste estudo, foi possível verificar uma associação entre os ureaplasmas e HPV no início das lesões cervicais, contudo mais estudos precisam ser realizados para aprimorar essa hipótese. / The development of cervical cancer depends on the exposure to HPV, necessary factor, but not enough. Other bacteria, such as ureaplasmas, have been associated as cofactors. The aim of this study was to evaluate the presence of ureaplasmas in women with cervical injury, and observe changes in PHK infected by ureaplasmas. 140 vaginal swabs were collected. The material was subjected to PCR for detection of HPV, Mollicutes, Ureaplasma urealyticum, U. parvum (and serotypes) and other bacteria gynecological importance; qPCR for U. urealyticum and U. parvum was made. PHK transformed by HPV was infected by ureaplasma. Cells were counted and it was done titration of IL1-&beta;, IL-6 and TNF-&alpha;. HPV, Mollicutes, U. parvum, serotypes 1 and 6 U. parvum, T. vaginalis and G. vaginalis, and some socioeconomic factors were associated with cervical injury. Besides this, it was detected higher load U. parvum among women with injury. There was decrease in cell number and increased release of IL-6 and TNF-&alpha; in infected groups. With the results of this study, we found an association among HPV and ureaplasmas at the beginning of cervical lesions, but more studies are needed to enhance this hypothesis.

Câncer cervical

Curva de crescimento celular

HPV

IL-1&beta;

IL-6

Lesão cervical

PCR

qPCR

Queratinócitos primário humano (PHK)

TNF-&alpha;

Ureaplasmas

Cell growth curve

Cervical câncer

Cervical injury

HPV

IL-1&beta;

IL-6

PCR

Primary Human Keratinocytes (PHK)

qPCR

TNF-&alpha;

Ureaplasmas