Spelling suggestions: "subject:"transferrintransportes receptor"" "subject:"serotransferrin receptor""
1 |
Estudo in vitro sobre a interação celular e vias endocíticas de papilomavírus humano (HPV) em leucócitos do sangue periférico. / In vitro study on the interaction of human papillomavirus in cell from peripheral blood leukocytes.Szulczewski, Vívian 05 May 2009 (has links)
O papilomavírus humano (HPV) é o principal agente etiológico do câncer cervical e anogenital, sendo o HPV16 e o HPV18 os vírus de alto risco. Estudos recentes evidenciaram que além da transmissão sexual do HPV, há outras formas de contágio. Entretanto, a dificuldade na obtenção de quantidades viáveis do tipo selvagem ou mutante do HPV tem limitado em muito os estudos de diversos aspectos da biologia do papilomavírus. Este estudo investigou a possibilidade de o HPV infectar células leucocitárias do sangue periférico humano. Concluímos que as VLPs L1L2 do HPV16 podem utilizar a via endocítica do ferro mediada por clatrina, através do complexo VLPs-Transferrina-Receptor de Transferrina, permanecendo de forma latente em leucócitos. Esta porta de entrada oportunista poderia explicar a propagação crescente e alarmante deste agravo à saúde humana, motivo de preocupação nos sistemas mundiais de saúde pública. Este trabalho demonstrou pela primeira vez a internalização de VLPs L1L2 do HPV16 em leucócitos do sangue periférico humano. / Human papillomavirus (HPV) is the primary etiologic agent of anogenital and cervical cancer, caused mainly by the high-risk HPV16 and HPV18 viruses. Recent studies revealed that besides the sexual transmission of HPV, there are other forms of contagion. However, the difficulty in obtaining quantities of viable wild-type or mutant of HPV constitutes a limiting factor in the studies of various aspects of the biology of human papillomavirus. This study investigated the possibility of HPV infect the cells of human peripheral blood leukocytes. We conclude that the VLPs L1L2 of HPV16 may use the iron endocytic pathway clathrin-mediated through the complex VLPs-Transferrin-Transferrin Receptor and remained so latent in leukocytes. This port of entry opportunist could explain the growing and alarming spread of this disease to human health, cause for concern in the global public health. This study showed for the first time the internalization of VLPs L1L2 of HPV16 in human peripheral blood leukocytes.
|
2 |
V-ATPase regulation of Hypoxia Inducible transcription FactorsMiles, Anna Louise January 2018 (has links)
Metazoans have evolved conserved mechanisms to promote cell survival under low oxygen tensions by initiating a transcriptional cascade centered on the action of Hypoxia Inducible transcription Factors (HIFs). In aerobic conditions, HIFs are inactivated by ubiquitin-proteasome-mediated degradation of their a subunit, which is dependent on prolyl hydroxylation by 2-oxoglutarate (2-OG) and Fe(II)-dependent prolyl hydroxylases (PHDs). In hypoxia, HIF-$\alpha$ is no longer hydroxylated and is therefore stabilised, activating a global transcriptional response to ensure cell survival. Interestingly, HIFs can also be activated in aerobic conditions, however the mechanisms of this oxygen-independent regulation are poorly understood. Here, I have explored the role of the vacuolar H+-ATPase (V-ATPase), the major proton pump for acidifying intracellular vesicles and facilitating lysosomal degradation, in regulating HIF-$\alpha$ turnover. Unbiased forward genetic screens in near-haploid human cells identified that disruption of the V-ATPase leads to activation of HIFs in aerobic conditions. Rather than preventing the lysosomal degradation of HIF-$\alpha$, I found that V-ATPase inhibition indirectly affects the canonical proteasome-mediated degradation of HIF-$\alpha$ isoforms by altering the intracellular iron pool and preventing HIF-$\alpha$ prolyl hydroxylation. In parallel, I characterised two putative mammalian V-ATPase assembly proteins, TMEM199 and CCDC115, identified by the forward genetic screen and subsequent mass spectrometry analysis. I confirmed that both TMEM199 and CCDC115 are required for V-ATPase function, and established assays to determine how TMEM199 and CCDC115 associate with components of the core V-ATPase complex. Lastly, to measure how V-ATPase activity leads to changes in the labile iron pool, I developed an endogenous iron reporter using CRISPR-Cas9 knock-in technology. This approach confirmed that iron homeostasis is impaired during V-ATPase inhibition, and demonstrated that exogenous ferric iron can restore the labile iron pool in a transferrin-independent manner. Together my studies highlight a crucial link between V-ATPase activity, iron homeostasis, and the hypoxic response pathway.
|
3 |
Estudo in vitro sobre a interação celular e vias endocíticas de papilomavírus humano (HPV) em leucócitos do sangue periférico. / In vitro study on the interaction of human papillomavirus in cell from peripheral blood leukocytes.Vívian Szulczewski 05 May 2009 (has links)
O papilomavírus humano (HPV) é o principal agente etiológico do câncer cervical e anogenital, sendo o HPV16 e o HPV18 os vírus de alto risco. Estudos recentes evidenciaram que além da transmissão sexual do HPV, há outras formas de contágio. Entretanto, a dificuldade na obtenção de quantidades viáveis do tipo selvagem ou mutante do HPV tem limitado em muito os estudos de diversos aspectos da biologia do papilomavírus. Este estudo investigou a possibilidade de o HPV infectar células leucocitárias do sangue periférico humano. Concluímos que as VLPs L1L2 do HPV16 podem utilizar a via endocítica do ferro mediada por clatrina, através do complexo VLPs-Transferrina-Receptor de Transferrina, permanecendo de forma latente em leucócitos. Esta porta de entrada oportunista poderia explicar a propagação crescente e alarmante deste agravo à saúde humana, motivo de preocupação nos sistemas mundiais de saúde pública. Este trabalho demonstrou pela primeira vez a internalização de VLPs L1L2 do HPV16 em leucócitos do sangue periférico humano. / Human papillomavirus (HPV) is the primary etiologic agent of anogenital and cervical cancer, caused mainly by the high-risk HPV16 and HPV18 viruses. Recent studies revealed that besides the sexual transmission of HPV, there are other forms of contagion. However, the difficulty in obtaining quantities of viable wild-type or mutant of HPV constitutes a limiting factor in the studies of various aspects of the biology of human papillomavirus. This study investigated the possibility of HPV infect the cells of human peripheral blood leukocytes. We conclude that the VLPs L1L2 of HPV16 may use the iron endocytic pathway clathrin-mediated through the complex VLPs-Transferrin-Transferrin Receptor and remained so latent in leukocytes. This port of entry opportunist could explain the growing and alarming spread of this disease to human health, cause for concern in the global public health. This study showed for the first time the internalization of VLPs L1L2 of HPV16 in human peripheral blood leukocytes.
|
Page generated in 0.0703 seconds