Joanna M. Biazik

Lysosomal and alkaline phosphatase activity indicate macromolecule transport across the uterine epithelium in two viviparous skinks with complex placenta.

In addition to water and small inorganic ions, macromolecules traverse the uterine epithelium in viviparous skinks to be absorbed by the developing fetus. In some species of lizards with complex placenta, the paracellular pathway across the uterine epithelium becomes tighter and more highly regulated as gestation progresses, suggesting that the transcellular pathway may be an alternative route for molecules to travel across the epithelium. In this study, we identified an extensive formation of a lysosomal system in the apical region of uterine epithelial cells in the highly secretory omphaloplacental region of the skink placenta in two species from the Pseudemoia genus. We suggest that this lysosomal system assists apocrine secretion by digesting large macromolecules into smaller particles, allowing more effective transport across the plasma membrane of uterine epithelial cells. We also demonstrate alkaline phosphatase (AP) activity along the apical plasma membrane of uterine epithelial cells in the omphaloplacental region of skink uterus, an enzyme usually associated with active transport in secretory cells. Apocrine secretion, an extensive lysosomal system and AP activity, offer strong evidence that macromolecules are transported across uterine epithelium of the omphaloplacenta. Our study is the first to provide histochemical evidence of macromolecular transport across this region of the placenta in two species of skinks from the genus with the most complex placenta described in Australia.

The tight junctional protein occludin is found in the uterine epithelium of squamate reptiles

Occludin, an integral protein associated with the mammalian tight junction, has for the first time been identified in the uterus of squamate reptiles. The tight junction is made up of anastamosing strands and forms a selective barrier that regulates paracellular diffusion of solutes across uterine epithelium. Occludin exclusively labels tight junctional strands and is an excellent marker for tight junction permeability. Using western blotting and immunohistochemistry, occludin expression was examined in the uterine epithelium of five species of Australian skinks at different stages of gestation. More occludin was detected during late stage pregnancy/gravidity compared to the lower levels of occludin detected in vitellogenic and post-parturient females in three of the five species. We conclude that the paracellular permeability of the squamate uterine epithelium decreases as gestation progresses. As placental transport of ions and solutes to the embryo is highest during the last third of pregnancy in viviparous squamates, it is likely that a decrease in paracellular permeability is compensated by an upregulation of other transporting mechanisms such as histotrophy.

GM1 expression in caco-2 cells: characterisation of a fundamental passage-dependent transformation of a cell line.

Caco-2 cells, which are known to spontaneously differentiate in cell culture, adopt typical epithelial characteristics and are widely used as a model to study cellular uptake, transport and metabolism processes. However, groups of flat and undifferentiated cells have been observed amid differentiating Caco-2 cell monolayers. In this study, we isolated and characterised these morphologically distinct, flat and island-forming Caco-2 cells. We visualised the undifferentiated cell islands with the aid of optical and electron microscopy and identified mono-sialo-ganglioside one (GM1) as their unique marker. Furthermore, two distinct subpopulations of morphology and GM1 expression were dilution cloned (Caco-2(GM1-) and Caco-2(GM1+) ), leading to the first documented Caco-2 clone that does not show differentiation characteristics. Caco-2(GM1+) cells were flat, non-polarising with extremely low transepithelial electrical resistance (TEER), whereas Caco-2(GM1-) cells showed typical epithelial features and high TEER. Importantly, the proportion of Caco-2(GM1+) cells in a culture increased with passage number and eventually dominated the cell culture. The novel GM1 passage-dependent cell transformation described here shows that careful monitoring is required when performing in vitro cell studies. Therefore, to guarantee consistent and valid experimental data, GM1 expression and the loss of differentiation characteristics should be carefully monitored and the use of fresh cultures should be standard practice.

Desmosomes in the Uterine Epithelium of Noninvasive Skink Placentae

Australian species of viviparous skinks have noninvasive epitheliochorial placentation where there is no breeching or interruption of the uterine epithelial cell barrier. This is contrary to some African and South American species of skinks which exhibit invading chorionic cells and a localized endotheliochorial placenta. The desmosomes, which maintain the adhesive properties of the junctional complex between uterine epithelial cells, were found to decrease as gestation progressed in the uterus of two highly placentotrophic Australian skinks, but no changes in desmosomal numbers were present in the uterus of two Australian oviparous skinks or viviparous skinks with a simple placenta. In mammals, desmosomes decrease in the uterine epithelium of species with invasive hemochorial placentation, where less chemical and mechanical adhesion between cells assists the invading trophoblast at the time of implantation. However, Australian viviparous skinks do not have an invasive trophoblast; yet, similarities in decreasing lateral cellular adhesion exist in the uterus of both invasive and noninvasive placental types. This similarity in cellular mechanisms suggests a conservation of plasma membrane changes across placentation irrespective of reptilian or mammalian origin. Anat Rec, 293:502–512, 2010.

Claudin-5 is Restricted to the Tight Junction Region of Uterine Epithelial Cells in the Uterus of Pregnant/Gravid Squamate Reptiles

Claudin‐5, a tight junctional protein associated with ion and size selectivity, has been found in the uterus of skinks. This study has generated critical information about the molecular assembly of the tight junction at various stages of the reproductive cycle in the skink uterus. Recent studies looking at tight junctional proteins found occludin expression in the tight junction region of uterine epithelial cells in the skink uterus; however, occludin did not disclose any further information about the ions and size of ions permeating across the paracellular pathway. A ∼22‐kDa claudin‐5 band was detected in the uterus of the skinks present in this study and immunohistochemistry revealed that claudin‐5 redistributes to the tight junction region of the lateral plasma membrane of uterine epithelial cells in late stage pregnancy/gravidity. This finding indicates that the tight junction becomes more assembled to precisely regulate ion and solute permeation in late stage pregnancy/gravidity. Claudin‐5 with its functional role as a molecular sieve due to the formation of ion and size selective pores suggests that permeation of ions smaller than 0.8 kDa are restricted when claudin‐5 is redistributed to the tight junction region of the later plasma membrane. This report is the first description of the molecular mechanisms that may be involved in regulating nutrient provision in the reptilian uterus. Anat Rec, 291:547–556, 2008.

Uterine epithelial morphology and progesterone receptors in a mifepristone-treated viviparous lizard Pseudemoia entrecasteauxii (Squamata: Scincidae) during gestation.

Structural and functional changes to the uterus associated with maintenance of pregnancy are controlled primarily by steroid hormones such as progesterone. We tested the hypothesis that progesterone regulates uterine structural changes during pregnancy in the viviparous skink, Pseudemoia entrecasteauxii, by treating pregnant females with the progesterone receptor antagonist mifepristone at different stages of pregnancy. Expression and distribution of progesterone receptor was determined using Western blot and immunohistochemistry. During early pregnancy, mifepristone treatment resulted in altered uterine epithelial cell surface morphology and high embryo mortality, but did not affect females at mid and late stages of pregnancy. Females treated with mifepristone in early pregnancy exhibited abnormal uterine epithelial cell morphology such as lateral blebbing and presence of wide gaps between cells indicating loss of intercellular attachment. Chorioallantoic membranes of the embryo were not affected by mifepristone treatment. Two isoforms (55 kDa and 100 kDa) of progesterone receptor were identified using immunoblots and both isoforms were localized to the nucleus of uterine epithelial cells. The 55 kDa isoform was expressed throughout pregnancy, whereas the 100 kDa isoform was expressed during mid and especially late pregnancy. In P. entrecasteauxii, mifepristone may prevent successful embryo attachment in early pregnancy through its effects on uterine epithelial cells but may have little effect on pregnancy once the maternal-embryo structural relationship is established.

Caveolae and Caveolin-1 in Reptilian Liver

Caveolae are plasma-membrane invaginations that, by interacting with membrane-associated molecules such as endothelial nitric oxide synthase and tyrosine kinases, precisely regulate cell-signalling pathways responsible for cell structure and cell function. Indeed, there is widespread evidence that caveolae associate, structurally and functionally, with proteins, lipids and solutes to facilitate transcellular transport of these macromolecules. Caveolin-1, one of the family of membrane proteins that form caveolae, is most prominently expressed in endothelial cells of the vascular bed. Therefore, we have applied advanced electron microscopy as well as molecular biology techniques to study the presence of caveolae and caveolin-1 in the liver sinusoidal endothelium of reptiles. Reptiles are known to store excess lipid in the liver as an energy source for hibernation, and so offer a useful animal model in which to assess the structural and functional implications these subcellular compartments might have on liver sinusoidal endothelial transport. This study demonstrates that caveolae are indeed conserved across vertebrate species, whether mammalian or reptilian. It also presents as first novel data on the presence of caveolin-1-associated, tubular structures located within the cytoplasm of the lizard liver sinusoidal endothelium.

An outbreak of granulomatous peritonitis caused by injectable selenium in a flock of Merino sheep

During meat inspection, unusual pigmented lesions were found in the abdomens of 411 sheep from a flock raised in the Northern Tablelands of New South Wales. In each affected sheep there were multiple discrete, soft, yellow homogeneous plaques beneath the parietal peritoneum and extending into marginating facial planes of the diaphragm and body wall. Microscopically, the lesions consisted of focal granulomatous peritonitis with intracellular acicular refractile golden-brown crystals. Energy dispersive X-ray spectroscopy revealed intralesional barium and selenium, two components of an injectable selenium compound administered to the sheep 6-8 months prior, which contains the yellow pigment, iron oxide. The mechanism of subperitoneal deposition of the compound could not be confirmed, but is presumed to have involved intraperitoneal injection of barium selenate. Meat inspectors and diagnosticians should consider barium selenate injection-site granulomas as a possible explanation for yellow pigmented lesions, especially in livestock from selenium-deficient areas. Animal care providers should be aware that incorrect administration of barium selenate can result in losses from condemnation or downgrading of meat product.