New approaches to thyroid hormones and purinergic signaling

It is known that thyroid hormones influence a wide variety of events at the molecular, cellular, and functional levels. Thyroid hormones (TH) play pivotal roles in growth, cell proliferation, differentiation, apoptosis, development, and metabolic homeostasis via thyroid hormone receptors (TRs) by controlling the expression of TR target genes. Most of these effects result in pathological and physiological events and are already well described in the literature. Even so, many recent studies have been devoted to bringing new information on problems in controlling the synthesis and release of these hormones and to elucidating mechanisms of the action of these hormones unconventionally. The purinergic system was recently linked to thyroid diseases, including enzymes, receptors, and enzyme products related to neurotransmitter release, nociception, behavior, and other vascular systems. Thus, throughout this text we intend to relate the relationship between the TH in physiological and pathological situations with the purinergic signaling

New Approaches to Thyroid Hormones and Purinergic Signaling

It is known that thyroid hormones influence a wide variety of events at the molecular, cellular, and functional levels. Thyroid hormones (TH) play pivotal roles in growth, cell proliferation, differentiation, apoptosis, development, and metabolic homeostasis via thyroid hormone receptors (TRs) by controlling the expression of TR target genes. Most of these effects result in pathological and physiological events and are already well described in the literature. Even so, many recent studies have been devoted to bringing new information on problems in controlling the synthesis and release of these hormones and to elucidating mechanisms of the action of these hormones unconventionally. The purinergic system was recently linked to thyroid diseases, including enzymes, receptors, and enzyme products related to neurotransmitter release, nociception, behavior, and other vascular systems. Thus, throughout this text we intend to relate the relationship between the TH in physiological and pathological situations with the purinergic signaling

New Approaches to Thyroid Hormones and Purinergic Signaling

It is known that thyroid hormones influence a wide variety of events at the molecular, cellular, and functional levels. Thyroid hormones (TH) play pivotal roles in growth, cell proliferation, differentiation, apoptosis, development, and metabolic homeostasis via thyroid hormone receptors (TRs) by controlling the expression of TR target genes. Most of these effects result in pathological and physiological events and are already well described in the literature. Even so, many recent studies have been devoted to bringing new information on problems in controlling the synthesis and release of these hormones and to elucidating mechanisms of the action of these hormones unconventionally. The purinergic system was recently linked to thyroid diseases, including enzymes, receptors, and enzyme products related to neurotransmitter release, nociception, behavior, and other vascular systems. Thus, throughout this text we intend to relate the relationship between the TH in physiological and pathological situations with the purinergic signaling

Differential expression and enzymatic activity of DPPIV/CD26 affects migration ability of cervical carcinoma Cells

Dipeptidyl peptidase IV (DPPIV/CD26) is a transmembrane glycoprotein that inactivates or degrades some bioactive peptides and chemokines. For this reason, it regulates cell proliferation, migration and adhesion, showing its role in cancer processes. This enzyme is found mainly anchored onto the cell membrane, although it also has a soluble form, an enzymatically active isoform. In the present study, we investigated DPPIV/CD26 activity and expression in cervical cancer cell lines (SiHa, HeLa and C33A) and non-tumorigenic HaCaT cells. The effect of the DPPIV/CD26 inhibitor (sitagliptin phosphate) on cell migration and adhesion was also evaluated. Cervical cancer cells and keratinocytes exhibited DPPIV/CD26 enzymatic activity both membrane-bound and in soluble form. DPPIV/CD26 expression was observed in HaCaT, SiHa and C33A, while in HeLa cells it was almost undetectable. We observed higher migratory capacity of HeLa, when compared to SiHa. But in the presence of sitagliptin SiHa showed an increase in migration, indicating that, at least in part, cell migration is regulated by DPPIV/CD26 activity. Furthermore, in the presence of sitagliptin phosphate, SiHa and HeLa cells exhibited a significant reduction in adhesion. However this mechanism seems to be mediated independent of DPPIV/CD26. This study demonstrates, for the first time, the activity and expression of DPPIV/CD26 in cervical cancer cells and the effect of sitagliptin phosphate on cell migration and adhesion

Efeitos de crises crônicas e agudas induzidas por pentilenotetrazol sobre a hidrólise de nucleotídeos púricos em soro de ratos adultos

A adenosina tem sido descrita como tendo importante efeito neuromodulatório em SNC, inibindo a liberação de neurotransmissores excitatórios através da ativação dos receptores A1. Agonistas de receptores A1, bem como adenosina e seus análogos, tem sido descritos como supressores de crises epilépticas. Uma das vias de produção de adenosina é a hidrólise extra-celular completa do ATP envolvendo as enzimas ATP difosfoidrolase (CD39) e 5’-nucleotidase (CD73). Embora esta associação enzimática já esteja bem descrita, o envolvimento da enzima fosfodiesterase não pode ser descartado, uma vez que esta hidrolisa nucleotídeos como ATP e ADP, além de outros substratos. Recentemente, foi demonstrado em nosso laboratório um aumento das atividades ATP difosfoidrolase e 5’-nucleotidase em sinaptossomas de ratos após a indução de 2 diferentes modelos de epilepsia de lobo temporal. Neste trabalho, nós investigamos o efeito de crises agudas e crônicas induzidas pelo agente pró-convulsivante pentilenotetrazol (PTZ) sobre a hidrólise dos nucleotídeos ATP, ADP e AMP em soro de ratos, uma vez que formas solúveis de nucleotidases já estão descritas. No modelo agudo os animais receberam apenas 1 injeção de PTZ ou salina, sendo mortos por decapitação em diferentes tempos após a injeção da droga. A hidrólise dos nucleotídeos ATP, ADP e AMP apresentaram aumento significativo de 40 –50% nos ratos tratados em relação aos ratos controle até 24 após a última injeção. Em 48 horas, este efeito foi abolido. Já, a hidrólise do substrato artificial p-Nph-5’-TMP usado como marcador para a fosfodiesterase, não apresentou nenhum aumento significativo em ratos tratados quando comparado aos animais controle. No modelo crônico (kindling), os animais recebiam doses inicialmente subconvulsivantes que resultam em crises progressivamente mais intensas ao longo das subseqüentes estimulações. Para descartar o efeito da injeção aguda, os ratos foram mortos 48 horas após a última estimulação. Com exceção do substrato artificial para a fosfodiesterase, a hidrólise dos nucleotídeos testados aumentou de maneira significativa (cerca de 40% - 45%) em soro de ratos submetidos ao modelo de kindling. Estes resultados demonstram o envolvimento de nucleotidases solúveis no controle dos níveis do neurotransmissor ATP e do neuromodulador adenosina, sendo estas respostas presentes tanto em situações patológicas agudas, como em situações patológicas crônicas que envolvem o fenômeno de plasticidade sináptica

Antineoplastic potential of the aqueous crude extract of Eugenia uniflora L. in human cervical cancer

Considering the high prevalence of human cervical cancer and the adverse effects of the available treatments, it is important to develop studies involving plants. Eugenia uniflora L. is a Brazilian native plant widely used in folk medicine and some biological effects have already been described. In this study, we investigated the biologicals effects of the aqueous crude extract of E. uniflora leaves in relation to the viability of human cervical cancer cells (SiHa), non-tumorigenic cells HaCaT and human lymphocytes. Our results demonstrated that different concentrations of E. uniflora’s extract significantly inhibited the viability of the Siha cell line at 24, 48 and 72 hours of treatment, but did not induce significant changes in the HaCat cell line and human lymphocytes. Tumor cells had adhesion capacity, migration processes, ability of colony forming and the potential to recover its viability after treatment. withdrawal, significantly reduced. The nuclear morphology revealed chromatin condensation, and the flow cytometry showed predominantly cell death by apoptosis in the treated tumor cells. Therefore, the E. uniflora’s extract may contribute for future studies aiming at new therapeutic perspectives for human cervical cancer

Hipo e hipertireoidismo afetam a atividade de ecto-nucleotidases de fatias de hipocampo e de córtex cerebral de ratos adultos

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Influência de células-tronco mesenquimais sobre o desenvolvimento, morfologia e sobrevivência neuronal

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