Regulation of cell polarity by controlled proteolytic systems

Epithelial and neuronal cells are highly asymmetric, with discrete regions responsible for different roles that underlie the generation of specific compartments within cells that are distinct in biochemical composition, structure, and morphology that ultimately lead to distinct functions. Controlled and specific molecular targeting and sorting have been studied to understand the generation of asymmetric domains inside cells. Recently, a new and complementary explanation has emerged to account for the generation of domains that are enriched by a subset of proteins or polarization determinants: local proteolysis. In this review, we discuss the most conspicuous proteolytic systems that may contribute to the generation of cell polarity, namely the ubiquitin-proteosome and the calpain systems. Specifically, we focus this review on two cellular processes that depend on the acquisition of cell polarity; cell migration and the establishment of an axon in a neuronal cell.

Análisis de la polaridad estructural y funcional de estructuras tridimensionales (esferoides) de células hepáticas porcinas cultivadas in vitro / Structural and functional polarity of porcine hepatocyte cultured spheroids

Los hepatocitos son células epiteliales polarizadas que, al ser aisladas y cultivadas, pierden la polaridad y las propiedades de célula diferenciada. El cultivo de células hepáticas como esferoides permite obtener estructuras con organización de tipo tisular. En este trabajo se analizó estructural y funcionalmente la polaridad de esferoides porcinos. Para ello, las células hepáticas porcinas fueron aisladas y cultivadas en agitación constante. La actividad metabólica de los esferoides fue probada mediante el metabolismo de diazepam y de amonio, así como con síntesis de albúmina. Sus características estructurales mostraron la polaridad de las células. Fueron observados paquetes de fibras de colágeno distribuidas irregularmente y fibras reticulares en formahomogénea en todo el volumen del esferoide. Se hallaron células Ck19+ formando estructuras tipo ducto biliar, así como también _ y _-cateninas y pan-cadherinas en diferentes zonas, especialmente en las laminas externas, con características de epitelio cuboidal. Por microscopía electrónica de barrido se observaron estructuras muy compactas con superficie lisa, y por microscopía electrónica de transmisión, canalículos biliares con microvellosidades, uniones tight, zonula adherens y desmosomas. Las organelas celulares como mitocondrias, núcleos, nucleolos, peroxisomas, retículo endoplásmico estaban bien conservadas. Una compleja red de canalículos biliares fue observada mediante la incorporación y excreción de un análogo de sal biliar fluorescente. El análisis de los ácidos biliares excretados mostró un patrón normal. La morfología y funcionalidad de los esferoides puede aportar un modelo apropiado para aplicaciones en las que es primordial mantener las funciones específicas del hígado, como un dispositivo de hígado bioartificial.

Hepatocytes are epithelial cells that show a complex polarity in vivo. However, hepatocytes isolated and cultured in vitro normally lose both their differentiated properties and polarity. Culturing hepatocyte spheroids seems to be the accurate approach to maintain tissue level of organization. The structural and functional polaritiesof pig liver spheroids were analyzed in this work. Swine liver cells were isolated and cultured as spheroids. Their metabolic activity was proved through the metabolism of diazepam, ammonium and synthesis of albumin. Several structural features show the presence of polarity in the cells inside the spheroids. Reticular and collagen fibers, as well as Ck19(+) cells forming duct-like structures were found. _eta and _-catenins and pancadherins were positive in different regions of the spheroids, mainly in the outer cell layers, which have cuboidal epithelia features. The scanning electron microscopy showed a tightly compacted architecture, with smooth surface. The transmission electron microscopy analysis showed bile canaliculi with microvilli, tight junctions, zonula adherens and desmosome-like junctions. Wellmaintained cellular organelles, as mitochondria, nucleus,nucleolus, peroxisomes, endoplasmic reticulum, were seen in the spheroids. A complex inner bile canaliculinetwork was shown by using a fluorescent bile acid analogue incorporated and excreted by the spheroids. Furthermore, excretion of a normal pattern of bile acids was demonstrated. The morphology and functionality of the spheroids may provide an appropriate model for applications where the maintenance of liver-specific functions is crucial, as a bioartificial liver device.

Local and global Ca2+ signals: physiology and pathophysiology

The pancreatic acinar unit is a classical example of a polarized tissue. Even in isolation, these cells retain their polarity, and this has made them particularly useful for Ca2+ signaling studies. In 1990, we discovered that this cell has the capability of producing both local cytosolic and global Ca2+ signals. The mechanisms underlying this signal generation have now been established. Furthermore, it has become clear that the local signals are sufficient for the control of both fluid and enzyme secretion, whereas prolonged global signals are dangerous and give rise to acute pancreatitis, a disease where the pancreas digests itself.

Receptor-specific Ca2+ signaling in polarized cells

No abstract available.

Calcium-dependent and -independent mechanisms of P2Y receptor regulated anion secretion in polarized epithelia

No abstract available.

Morphogenesis of the epithelial cell transporting phenotype: systhesis and distribution of ion channels

The exchange of substance between higher organisms and the environment takes place across epithelia consisting of one or more cell layers. To perform this function, epithelial cells have two basic differentiated properties: 1) they form tight junctions (Tjs) that seal the extracellular space, and 2) they are polarized into an apical and a basolateral domain, with entirely different structural, biochemical and physiological properties. Our understanding of the mechanisms involved in the expression of these properties has been greatly enchanced by the availability of epithelial cell lines that form Tjs and polarize in vitro under conditions suitable for experimental control. In this article we summarize our studies on the synthesis and polarized expression of ion channels in epithelial cells. MDCK cells have four types of K+ channels in the apical domain, and a fifth one in the basolateral domain. The basolateral side also has a population of Cl- channels. Each type of channel is absolutely polarized. Harvesting with trypsin-EDTA reduces the area of the plasma membrane by 50 per cent and the channel population by 90 per cent. Upon plating, these channels are recovered within a few hours. We describe here the main extracellular and intracellular mechanisms involved in these phenomena.