Sabine Kaessmeyer

Nitrite pickling salt as an alternative to formaldehyde for embalming in veterinary anatomy--A study based on histo- and microbiological analyses.

Formaldehyde, the traditional embalming agent has negative health effects. Nitrite pickling salt has been reported to be a good and inexpensive alternative when supplemented with antioxidants, but the antioxidants caused yellowish colouration of cadavers, and damaged corrosion-resistant steel tables and stone floors. Here, nitrite pickling salt was supplemented with ethanol and Pluriol(®) and tested for effectiveness as an embalming agent of twenty dog cadavers: 10 with open, and 10 with closed abdominal cavity. The texture of the tissue was monitored intermittently for 12 months throughout the course of an anatomical dissection class. Histological and microbiological analysis of samples from muscles, lungs, duodenum and colon were performed. Dogs with an open abdomen remained suitable for dissection purposes during the entire course. The abdominal organs of the closed cadavers lost their natural features, without histological signs of autolysis. Enterococcus spp., Staphylococcus spp., Micrococcus spp., Bacillus spp. and Clostridium perfringens were recorded after 24 weeks. The open cadavers underwent additional maintenance via renewed treatment with ethanol and Pluriol(®) after each dissection. After 30 weeks, C. perfringens was massively reduced in the colon of the open cadavers. The tested solution successfully embalms open bodies, carries no health risks and is environmentally friendly and cost effective.

Lung cancer neovascularisation: Cellular and molecular interaction between endothelial and lung cancer cells.

BACKGROUND Novel vascular-independent conduits have been observed in some cancers. These have been variously described as vasculogenic mimicry, mosaic vessel formation, vascular co-option and intratumour embryonic-like vasculogenesis. Despite lung cancer being the most common cancer worldwide, there is little information on its neovascularisation or the pathways involved. METHODS An in vitro model involving co-cultures of microvascular lung endothelial cells and squamous or adenocarcinoma lung cancer cells was developed to assess their angiogenic interaction. Cells were incubated and examined by phase contrast microscopy and by immunocytochemistry in both mono- and co-cultures. Cultured cells and lung cancer tissue sections were assessed for new tumour vessel formation, expression of the endothelial marker CD31 and morphology. RESULTS Lung tumour cells and endothelial cells interacted morphologically via pseudopodia and used alternative pathways to generate new vessels. Co-culturing microvascular endothelial and squamous carcinoma cells led to endothelial cells surrounding tumour cells and the tumour cells being incorporated into vessel walls. Co-culturing endothelial and adenocarcinoma cells resulted in cellular contact and the formation of tumour cell bridges around clusters of endothelial cells. These adencocarcinoma cells became strongly positive for CD31. Tumour tissue section studies supported the in vitro findings. CONCLUSION Lung carcinoma cells when co-cultured with lung endothelial cells modify their cellular and molecular features that encourage alternative means of providing blood supply. The mechanisms underpinning these non-angiogenic processes need to be further investigated and should be considered when anti-tumour therapeutic interventions are being considered.

Identification of CD133-, CD34- and KDR-positive cells in the bovine ovary: A new site of vascular wall resident endothelial progenitor cells

Intense angiogenesis, vascular remodelling as well as regression of its vasculature are prerequisites for ovarian function with its cyclically developing and regressing follicles and corpora lutea. So far neither a stringent explanation for the enormous angiogenic potential of the ovary nor its cellular origins have been suggested. In an earlier study of our work group, endothelial cells were isolated from the bovine corpus luteum and cultivated in vitro. They performed vasulogenesis in vitro and showed properties of progenitor cells. The present study aimed at in situ identification of endothelial progenitor cells (EPCs) in the bovine ovary. Immunohistochemical examinations, based on the detection of KDR and CD34 co-labelled cells - a marker combination that amongst others is commonly accepted as typical for EPC identification - were performed. Hormonal cycle dependent expression varieties were analysed by the measurement of mRNA amounts of CD34 and KDR as well as the stem cell marker CD133 (Prominin-1). Ovarian samples comprising corpora lutea of varying stages (developing and mature corpus luteum, corpus luteum in regression, corpus luteum of pregnancy) from 17 adult cows were examined. Results show that specific mRNA of CD133, CD34 and KDR was expressed in ovaries of all luteal stages. Expression data analysis revealed significant differences in CD133 and CD34 expression levels between the luteal stages but no significant differences in KDR expression. CD34/KDR co-immunoreactive cells were predominantly situated within the media of arterial vessel wall. The detection of ovarian EPCs represents an important step towards further understanding of the mechanisms involved in the reproductive biology and pathophysiology of the ovary.

Isolation of equine endothelial cells and life cell angiogenesis assay.

Arterial or venous thromboses are frequent clinical complications with the risk of fatal progression. Recent studies suggest the disruption of angiogenesis in the course of thrombus resolution as the underlying pathomechanism. Very similar to the situation in human patients, equine vessels have been described to be particularly susceptible to thrombosis. In contrast to humans, equine donors are readily available to obtain organs and tissues for isolation of endothelial cells. Objective of this study was to isolate equine endothelial cells and develop an angiogenesis assay from primary cultures. Macrovascular endothelial cells were obtained from jugular veins and carotid arteries of nine horses, one of which suffered from inflammatory processes. After enzymatic isolation, the cells were incubated in different selective primary media. Phenotypic identification of endothelial cells was accomplished by morphology and positive staining to von Willebrand factor. The reliable, inexpensive, and standardized combination of methods presented here resulted in pure endothelial cultures for angiogenesis assays that can be used in any cell culture laboratory. Inverted phase microscopy and life cell imaging was used to characterize the stages of the angiogenic cascade of the endothelial cells. Life cell imaging gave new insights into the in vitro formation of capillary like structures including exocytosis of microparticles from endothelial cells before integration into the three-dimensional structure. We hypothesize that a specific population of endothelial cells showing a highly active migration pattern in life cell imaging might play a role in the resolution of thrombosis.

Alpha smooth muscle actin in the cycling ovary – an immunohistochemical study

In the ovary with its cyclically developing and regressing functional bodies and the associated intense neovascularisation and remodelling, alpha-smooth muscle actin (SMA) immunolocalisation has been frequently used as a marker to establish vessel hierarchy, in angiogenesis studies, or in studies characterising ovarian neoplasms in various species. The present study aims at detection of alpha-SMA-immunolocalisation within all structural components of the cycling bovine ovary in order to complement the hitherto available data. 27 ovaries, mainly of dairy cows ranging from 23 to 118 months of age and displaying all major stages of follicle and corpora lutea development, were collected at the abattoir and subjected to routine HE and trichrome staining as well as alpha-SMA immunohistochemistry. For this purpose, the specimens were pooled to form groups of the respective stage of corpus luteum development. The ovarian stroma displayed a notable alpha-SMA-reactivity, particularly surrounding the functional bodies. The study revealed specialised vascular modifications such as multi-directionally arranged vascular smooth muscle layers, vascular sphincters and distinct epitheloid modifications of the media in ovarian arteries. Alpha-SMA-reactivity of the microcirculation within corpora lutea of various stages allowed inferences on respective angiogenic properties. The findings were discussed focussing on functional interpretations.

Identification of stably expressed reference genes for RT-qPCR data normalization in defined localizations of cyclic bovine ovaries.

Ovaries are highly complex organs displaying morphological, molecular and functional differences between their cortical zona parenchymatosa and medullary zona vasculosa, and also between the different cyclic luteal stages. Objective of the present study was to validate expression stability of twelve putative reference genes (RGs) in bovine ovaries, considering the intrinsic heterogeneity of bovine ovarian tissue with regard to different luteal stages and intra‐ovarian localizations. The focus was on identifying RGs, which are suitable to normalize RT‐qPCR results of ovaries collected from clinical healthy cattle, irrespective of localization and the hormonal stage. Expression profiles of twelve potential reference genes (GAPDH, ACTB, YWHAZ, HPRT1, SDHA, UBA52, POLR2C, RPS9, ACTG2, H3F3B, RPS18 and RPL19) were analysed. Evaluation of gene expression differences was performed using genorm, normfinder, and bestkeeper software. The most stably expressed genes according to genorm, normfinder and bestkeeper approaches contained the candidates H3F3B, RPS9, YWHAZ, RPS18, POLR2C and UBA52. Of this group, the genes YWHAZ, H3F3B and RPS9 could be recommended as best‐suited RGs for normalization purposes on healthy bovine ovaries irrespective of the luteal stage or intra‐ovarian localization.

Generation of full-thickness skin equivalents using hair follicle-derived primary human keratinocytes and fibroblasts

Skin equivalents are increasingly used as human‐based test systems for basic and preclinical research. Most of the established skin equivalents are composed of primary keratinocytes and fibroblasts, isolated either from excised human skin or juvenile foreskin following circumcisions. Although the potential of hair follicle‐derived cells for the generation of skin equivalents has been shown, this approach normally requires microdissections from the scalp for which there is limited subject compliance or ethical approval. In the present study, we report a novel method to isolate and cultivate keratinocytes and fibroblasts from plucked hair follicles that were then used to generate skin equivalents. The procedure is non‐invasive, inflicts little‐pain, and may allow easy access to patient‐derived cells without taking punch biopsies. Overall, minor differences in morphology, ultrastructure, expression of important structural proteins, or barrier function were observed between skin equivalents generated from hair follicle‐derived or interfollicular keratinocytes and fibroblasts. Interestingly, improved basal lamina formation was seen in the hair follicle‐derived skin equivalents. The presented method here allows easy and non‐invasive access to keratinocytes and fibroblasts from plucked hair follicles that may be useful particularly for the generation of skin disease equivalents.

Subcellular Interactions during Vascular Morphogenesis in 3D Cocultures between Endothelial Cells and Fibroblasts

Background: Increasing the complexity of in vitro systems to mimic three-dimensional tissues and the cellular interactions within them will increase the reliability of data that were previously collected with in vitro systems. In vivo vascularization is based on complex and clearly defined cell–matrix and cell–cell interactions, where the extracellular matrix (ECM) seems to play a very important role. The aim of this study was to monitor and visualize the subcellular and molecular interactions between endothelial cells (ECs), fibroblasts, and their surrounding microenvironment during vascular morphogenesis in a three-dimensional coculture model. Methods: Quantitative and qualitative analyses during the generation of a coculture tissue construct consisting of endothelial cells and fibroblasts were done using transmission electron microscopy and immunohistochemistry. Results: Dynamic interactions were found in cocultures between ECs, between fibroblasts (FBs), between ECs and FBs, and between the cells and the ECM. Microvesicles were involved in intercellular information transfer. FBs took an active and physical part in the angiogenesis process. The ECM deposited by the cells triggered endothelial angiogenic activity. Capillary-like tubular structures developed and matured. Moreover, some ECM assembled into a basement membrane (BM) having three different layers equivalent to those seen in vivo. Finally, the three-dimensional in vitro construct mirrored the topography of histological tissue sections. Conclusion: Our results visualize the importance of the physical contact between all cellular and acellular components of the cocultures.

The effect of endothelialization on the epidermal differentiation in human three-dimensional skin constructs - A morphological study

INTRODUCTION Inducing vascularization in three-dimensional skin constructs continues to be difficult. In this study, two variations of human full-thickness skin constructs were examined. Type KCFB consists of keratinocytes (epidermal equivalent) and fibroblasts that were embedded in a collagen matrix (dermal equivalent). Type KCFB-EC consists of keratinocytes as well as fibroblasts and vascular endothelial cells. The epidermal equivalent of KCFB-EC constructs underwent cellular alterations in their differentiation possibly induced by the presence of endothelial cells. The objective of the study was to assess the effect of endothelial cells, i.e., endothelialization of the dermal equivalent on the differentiation of keratinocytes by comparing the morphology and ultrastructure of the two types of skin constructs, as well as to excised normal human skin. HYPOTHESIS The differentiation of keratinocytes is influenced by the presence of endothelial cells. METHODS, PATIENTS, MATERIAL KCFB constructs (keratinocytes, fibroblasts) and KCFB-EC skin constructs(kera-tinocytes, fibroblasts, endothelial cells) were prepared according to Küchler et al. [25]. After two weeks, the skin constructs were processed for analysis by light microscopy (LM) and electron microscopy (TEM), followed by quantitative, semi-quantitative as well as qualitative assessment. For comparison, analysis by LM and TEM of excised normal human skin was also performed. RESULTS Both KCFB and KCFB-EC skin constructs and the human skin had all strata of stratified soft-cornified epidermis present. The comparison of the respective layers of the skin constructs brought the following characteristics to light: The KCFB-EC constructs had significantly more mitotic cells in the stratum spinosum, more cell layers in the stratum granulosum and more keratohyalin granules compared to KCFB skin constructs. Additionally, the epidermal architecture was unorganized in the endothelialized constructs and features of excessive epidermal differentiation appeared in KCFB-EC skin constructs. CONCLUSION The endothelialization of the dermal equivalent caused changes in the differentiation of the epidermis of KCFB-EC skin constructs that may be interpreted as an unbalanced, i.e., uncontrolled or enhanced maturation process.

A comparative study of ammonia transport across ruminal epithelia from Bos indicus crossbreds versus Bos taurus

Absorption of ammonia from the rumen of cattle decreases nitrogen availability for fermentational protein synthesis, leading to increased competition of cattle with humans for protein and enhancing the release of toxic nitrogenous compounds into the environment. Given that differences in feeding and breeding might induce differences in ruminal ammonia transport, we compared electrophysiological, histological, and molecular biological characteristics of ruminal epithelia of Bos indicus crossbreds (Sahiwal-Mix, SWM) with those of Bos taurus (Holstein-Friesian, HF). As in HF, the stratified cornified epithelium of SWM expressed claudin 1 and 4. Measurements of ammonia flux (HF) and serosal pH (both breeds) suggested that at a mucosal pH of 6.4, net transport primarily occurred as NH4 + . As shown previously for HF, NH4 + induced a concentration-dependent rise in short circuit current (Isc ) in SWM that could be further stimulated by the TRP channel agonist menthol. Relative mRNA expression levels for TRPV3, TRPV4, TRPM6, and TRPM7 were significantly lower in SWM than in HF, with TRPA1 expression near the limit of detection. We conclude that uptake of ammonia from the rumen of both breeds occurs electrogenically as NH4 + with functional and molecular biological evidence pointing towards involvement of TRPV3 and TRPV4.