Nuclear factor of activated T cells negatively regulates expression of the tumor necrosis factor receptor-related 2 gene in T cells

Tumor necrosis factor receptor-related 2 (TR2, HVEM or TNFRSF-14) plays an important role in immune responses, however, the mechanisms regulating its expression are unclear. To understand the control of TR2 gene expression, we studied the upstream region of the gene. Gel supershift assays revealed inducible binding of nuclear factor of activated T cells (NFAT) to a putative NFAT site within the TR2 promoter. Furthermore, cotransfection of a dominant negative NFAT construct, or siRNA for NFAT, resulted in increased expression of a TR2 reporter gene. Our findings demonstrate that NFAT negatively regulates TR2 expression in activated T cells.

Newer insights into renal regulation of water homeostasis.

The regulation of high osmolality is an important driving force for water reabsorption and urinary concentration--the key functions of the kidney for maintaining optimum body fluid volume. New evidence shows that transcription factor tonicity responsive enhancer binding protein (TonEBP) and calcineurin-nuclear factor of activated T cells through cross-talk enhance Aquaporin 2 (AQP2) expression. AQP2 is the predominant vasopressin regulated water channel of the kidney collecting duct and is essential for urinary concentration. The serine/threonine phosphatase calcineurin is an important signaling molecule involved in kidney development and function. One potential target of calcineurin action is the water channel AQP2. The nuclear factor of activated T cells (NFAT) family has recently been expanded by the discovery of a new member, NFAT 5, or Ton EBP. Ton EBP is the only known mammalian transcription factor that regulates gene expression in response to hypertonicity. This review examines the importance of AQP2, calcineurin, NFATc and TonEBP in the renal regulation of water homeostasis.

Acción novedosa de la aldosterona en la nefrotoxicidad por ciclosporina / Novel action of aldosterone in CsA nephrotoxicity

Calcineurin inhibitors are helpful ímmunosuppressíve agents in clinical practice. Thanks to their lower cost respect with new ímmunosuppressíve therapy, calcineurin inhibitors in our country continue being the most used treatment in solid organ transplant recipients or patients with autoimmune disease. In the 80's decade cyclosporine A (CsA) was introduced as the first calcineurin inhibitor transforming the immunosuppression therapy. Up to date, many articles evaluating beneficial and adverse effects of CsA have been published. In this review, basic aspects and actions of CsA are analyzed together with studies from our laboratory that pointed out the pathophysiological role of aldosterone as a mediator of functional and structural changes that are observed in CsA nephrotoxicity. Based in our findings, we proposed that in CsA nephrotoxicity, the aldosterone mediates renal vasoconstriction and enhances TGFJ3 expression promoting the development of nefrotoxicity. Finally, results from our laboratory and others allow us to suggest that aldosterone receptors blockade with spironolactone or eplerone could be a pharmacological therapy to reduce or prevent acute and chronic CsA nephrotoxicity in transplant recipients.

Los inhibidores de calcineurina son los agentes inmunosupresores más potentes con los que se cuenta en la práctica clínica, y gracias a su bajo costo respecto a las nuevas terapias inmunosupresoras, en nuestro país continúan siendo los agentes terapéuticos más utilizados para el manejo de pacientes con enfermedades autoinmunes o que reciben trasplantes. En la década de los 80's se introdujo la ciclosporina A (CsA) como primer inhibidor de calcineurina, lo cual revolucionó la terapia inmunosupresora. Desde entonces se han publicado muy variados artículos donde se han evaluado los efectos benéficos y deletéreos de estos inhibidores; específicamente nos enfocaremos a revisar las acciones de CsA y, en particular, los resultados de nuestro laboratorio que muestran el papel fisiopatológico que juega la aldosterona como mediador de los cambios funcionales y estructurales que se observan en la nefrotoxicidad por ciclosporina. Específicamente su participación en promover la vasoconstricción renal asociada a CsA y en el desarrollo de fibrosis al inducir la expresión de TGFβ. Por lo tanto, nuestros resultados y los de otros autores nos permiten proponer el bloqueo de los receptores de aldosterona con espironolactona o eplerone como un tratamiento farmacológico útil para reducir la incidencia de nefrotoxicidad aguda y crónica, inducida por CsA en pacientes con enfermedades autoinmunes o que reciben trasplante de órganos.

NFAT transcription factors: from cell cycle to tumor development

The nuclear factor of activated T cells (NFAT) family of transcription factors has been primarily identified in immune cells; however, these proteins have been recently found to be functionally active in several other non-immune cell types. NFAT proteins are activated upon different stimuli that lead to increased intracellular calcium levels. Regardless of their widely known cytokine gene expression properties, NFATs have been shown to regulate other genes related to cell cycle progression, cell differentiation and apoptosis, revealing a broader role for these proteins in normal cell physiology. Several reports have addressed the participation of NFATs in many aspects of malignant cell transformation and tumorigenic processes. In this review, we will discuss the involvement of the different NFAT family members in the regulation of cell cycling, differentiation and tumor formation, and also its implications on oncogenesis. Better understanding the mechanisms by which NFATs regulate cell cycle and tumor-related events should be relevant for the development of rational anti-cancer therapies.