Effects of Growth Hormone and Insulin-Like Growth Factor-I on Milk Protein Gene Expression and Nutrient Uptake and Cell Proliferation in Clonal Bovine Mammary Epithelial Cells

Zhou, Yinli

13 September 2007

The overall objective of this research was to further understand the mechanism by which growth hormone (GH) stimulates milk production in cattle. Three studies were conducted toward this objective. In the first study, the effects of GH and insulin-like growth factor-I (IGF-I), a major mediator of GH action in vivo, on cell proliferation, nutrient transport, and milk protein gene expression in bovine mammary epithelial cell line MAC-T cells were determined. GH increased (P < 0.01) expression of four major milk protein genes in MAC-T cells transfected with GHR expression plasmid. Cotransfection analyses indicated that GH also stimulated (P < 0.01) luciferase reporter gene expression from the promoters of the four milk protein genes in MAC-T cells. These findings together with the fact that GHR mRNA and protein are expressed in the epithelial cells of the bovine mammary gland suggest that GH may directly stimulate milk protein gene expression in the mammary gland. This study also showed that IGF-I increased the proliferation (P < 0.01) and amino acid transport (P < 0.05) in MAC-T cells. Because GH is known to stimulate IGF-I production in animals, IGF-I-mediated mammary epithelial cell proliferation and amino acid uptake may be additional mechanisms by which GH increases milk production in cattle. In the second study, the role of connective tissue growth factor (CTGF) on IGF-I-stimulated proliferation of MAC-T cells was investigated. A microarray analysis revealed that IGF-I decreased CTGF mRNA expression in MAC-T cells (P < 0.01). This effect of IGF-I was further found to be mediated through the PI-3 kinase/Akt signaling pathway from the IGF-I receptor (IGF-IR). CTGF alone stimulated MAC-T cell proliferation (P < 0.01). However, together with IGF-I, CTGF attenuated the proliferating effect of IGF-I on MAC-T cells, and this attenuation was reversed by additional IGF-I. Therefore, IGF-I inhibition of CTGF expression may benefit IGF-I stimulation of MAC-T cell proliferation. CTGF had no effect on IGF-I-induced phosphorylation of IGF-IR or total IGF-IR expression in MAC-T cells, suggesting that CTGF may attenuate IGF-I stimulation of MAC-T cell proliferation through a postreceptor inhibition of the IGF-IR signaling pathway. In the third study, whether a milk yield-associated T/A polymorphism in exon 8 of the bovine GHR gene affected GHR signaling was determined. It was found that the two corresponding GHR variants did not differ in mediating GH induction of gene expression, suggesting that the two GHR variants are not functionally different and hence are unlikely to mediate different effects of GH on milk production. In summary, the results of this dissertation research suggest that GH may directly stimulate milk protein gene expression and indirectly stimulate mammary epithelial cell proliferation and amino acid uptake through IGF-I, thereby stimulating milk production in cattle. The results also suggest that IGF-I stimulation of mammary epithelia cell proliferation may involve an inhibition of CTGF expression in the cells. / Ph. D.

Milk production

Mammary epithelial cells

Insulin-like growth factor-I

Growth hormone

Effect of probiotics or high incubation temperature on gene expression and cell organization of the small intestine and yolk sac of chicks

Jia, Meiting

30 November 2021

The small intestine and yolk sac (YS) are important organs for nutrient absorption and innate immunity in chickens during the post-hatch or prehatch periods. These organs share a similar structure of epithelial cell-lined villi with tight junctions between adjacent cells. Probiotics have been reported to improve chicken growth performance and gut health including promotion of intestinal morphology. However, there are few studies that show the effect of probiotics on ontogeny of intestinal epithelial cells and antimicrobial peptides, or intestinal integrity in young healthy chicks. Heat stress during incubation was shown to increase mortality and decrease hatchability of chicks, while no studies have investigated the effect of heat stress on the integrity of the YS, which might be related to hatching performance. There were four studies conducted in this research: 1) a comparison of the effect of two probiotics on the ontogeny of small intestinal epithelial cells in young chicks; 2) the effect of two probiotics on mRNA abundance of tight junction proteins in the small intestine of young chicks; 3) the effect of high incubation temperature on mRNA abundance of tight junction proteins in the YS of broiler embryos; and 4) comparison of avian defense peptide mRNA abundance in the YS of broilers and layers. In study 1, Probiotics transiently decreased body weight gain (BWG) from day 2 to day 4, but did not affect body weight (BW) from day 2 to day 8, and small intestinal weight and intestinal morphology from day 2 to day 6. Probiotics did not affect marker gene expression of intestinal stem cells (Olfm4) and goblet cells (Muc2) in all small intestinal segments, but did increase expression of a marker gene of proliferating cells (Ki67), and decreased an antimicrobial peptide (liver-enriched antimicrobial peptide 2, LEAP2) in the jejunum at day 4. Probiotic 1 decreased PepT1, a marker of enterocytes in the duodenum at day 4. These results suggest that probiotics did not improve growth performance and intestinal morphology in young healthy chicks, but temporarily promoted intestinal epithelial cell proliferation and decreased LEAP2 antimicrobial peptide expression in the jejunum. In situ hybridization (ISH) showed that Ki67+ proliferating cells were mainly located in the crypt region and the blood vessels of villi. In study 2, Probiotic supplementation to newly hatched chicks for less than one week did not affect mRNA abundance of the tight junction proteins in the small intestine. Occludin (OCLN) mRNA, which was detected by ISH to be expressed in intestinal epithelial cells in both the villus and crypt regions, was greater in the duodenum of female chicks than males. In study 3, high incubation temperature starting from embryonic day 12 (E12) affected mRNA abundance of the tight junction proteins in the YS, including increased zonula occluden 1 (ZO1) at E13, increased junctional adhesion molecule A (JAMA) and heat shock protein 90 (HSP90) at E17, but decreased tight junction protein JAMA at E19 and OCLN at day of hatch (DOH). These results showed that the YS tight junction proteins were increased by short term heat exposure but decreased by long term heat exposure. In study 4, the expression of avian β defensin 10 (AvBD10), CATHs and toll-like receptors in the YS was examined. Toll-like receptors were highly expressed in the YS at early incubation stages (E7), while CATHs showed a peak expression from E9 to E13, which was similar to the expression pattern of AvBD10. CATHs and AvBD10 mRNA temporal expression patterns were similar in broilers and layers, while their expression levels were different. Layers, especially brown layers, had greater mRNA abundance for antimicrobial peptides such as AvBD10, CATH1, and CATH2 in the YS. These results demonstrate that the antimicrobial peptide temporal expression patterns in the YS are not affected by breed, but their expression levels are affected by breed. In summary, the small intestine and the YS are essential for nutrient uptake, innate immunity, and maintenance of integrity. The ontogeny of intestinal epithelial cells, such as proliferating cells can be modulated by probiotic supplementation. Similar to the small intestine, the YS can also express tight junction proteins, which can be affected by high incubation temperature. Antimicrobial peptide expression in the intestine of healthy young chicks is also transiently decreased by probiotic supplements. Avian defensin and cathelicidin expression patterns in the YS were not affected by breed. / Doctor of Philosophy / The small intestine and yolk sac are important organs for nutrient absorption in hatched chicks or embryonic chicks. These organs also serve as a barrier to prevent pathogens from entering the blood circulation. Intestinal epithelial cells along the villi renew rapidly by proliferation and differentiation. In this research, probiotics which are also known as direct fed microbials temporarily increased expression of the proliferating cell marker Ki67 in the jejunum of healthy young chicks, which suggests that probiotics promote intestinal epithelial cell proliferation. However, probiotics transiently decreased expression of an antimicrobial peptide, which may reduce immune protection in the gut. The yolk sac can also express tight junction proteins. The expression of tight junction proteins was affected by elevated incubation temperature in broiler embryos, which might be related to low hatchability of eggs exposed to heat stress. Avian defense peptides and pathogen recognition receptors were expressed in the YS, which implied that the yolk sac contained an innate immune function. The expression pattern of avian defense peptides was affected by breed (broilers and layers), while the expression level of avian defense peptides was greater in layers than broilers. In summary, the small intestine and the yolk sac are multifunctional organs. Their cell composition, structural integrity, and secretion of antimicrobial peptides can be affected by environmental factors, such as probiotic supplementation or high incubation temperature.

probiotic

high incubation temperature

epithelial cells

tight junction

small intestine

yolk sac

chicken

Transcriptional gene silencing of kallikrein 5 and kallikrein 7 using siRNA prevents epithelial cell detachment induced by alkaline shock in an in vitro model of eczema.

Britland, Stephen T., Hoyle, Milli

04 1900

No / Eczema is widely considered to be an exacerbation of alkaline stress to the skin. Epidermal barrier dysfunction is a feature of eczema pathology, which predisposes affected individuals to distressing morbid symptoms. At least two serine proteases, stratum corneum chymotryptic enzyme (kallikrein 7 [KLK7]) and stratum corneum tryptic enzyme (kallikrien 5 [KLK5]), have increased activity levels in eczematous lesions and both have been implicated in the destruction of corneodesomosomes, which are crucial to epidermal integrity. The present in vitro study investigated whether transcriptional gene silencing after siRNA transfection could influence the activity of these signature enzymes in an in vitro model of eczema induced by alkaline shock. HaCaT epithelial cells were subjected to alkaline stress by the addition of 1,1,3,3-tetramethyl guanidine “superbase” (TMG) to the culture media. The culture media were subsequently tested for chymotryspin, trypsin, plasmin, and urokinase activity using colorimetric peptide assays and for reactive oxygen species using WST1 cell viability reagent. Cells that had been transfected with small interfering ribonucleic acid (siRNA) against KLK5 and KLK7 for 24 h before alkaline shock did not exhibit the increase in serine protease levels observed in untreated controls. Moreover, an endpoint MTT assay (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide) confirmed that detachment of cells from the culture substrate observed in alkaline-stressed cells did not occur in siRNA-treated cells. This in vitro study has established the proof-of-principle that siRNA therapy appears to mitigate the consequences of alkaline shock to the serine protease-associated fragility of epithelial cells that is characteristic of eczema.

siRNA

Eczema

HaCaT

Kallikrein

Corneodesmosomes

Transcriptional gene silencing

Epithelial cells

Eczema

Amine functional hydrogels as selective substrates for corneal epithelialization

Hassan, E., Deshpande, P., Claeyssens, F., Rimmer, Stephen, MacNeil, S.

07 1900

No / The aim of this study was to develop a synthetic hydrogel to act as a corneal substitute capable of selectively supporting the adhesion and proliferation of limbal epithelial cells (LECs) while inhibiting growth of limbal fibroblasts. Deficiency of LECs causes conjunctival epithelial cells to move over the cornea, producing a thick scar pannus. Unilateral defects can be treated using LEC cultured from the unaffected eye, transplanting them to the affected cornea after scar tissue is removed. The underlying wound bed is often damaged, however, hence the need to develop a corneal inlay to aid in corneal re-epithelialization. Transparent epoxy-functional polymethacrylate networks were synthesized using a combination of glycerol monomethacrylate, ethylene glycol dimethacrylate, lauryl methacrylate and glycidyl methacrylate that produced two different bulk hydrogel compositions with different equilibrium water contents (EWCs): Base 1 and Base 2, EWC=55% and 35%, respectively. Two sets of amine-functional hydrogels were produced following reaction of the epoxide groups with excesses of either ammonia, 1,2-diamino ethane, 1,3-diamino propane, 1,4-diamino butane or 1,6-diamino hexane. Neither series of hydrogels supported the proliferation of limbal fibroblasts irrespective of amine functionalization but they both supported the adhesion and proliferation of limbal epithelial cells, particularly when functionalized with 1,4-diamino butane. With Base 1 hydrogels (less so with Base 2) a vigorous epithelial outgrowth was seen from small limbal explants and a confluent epithelial layer was achieved in vitro within 6days. The data support the development of hydrogels specific for epithelial formation.

Animals

Cell division

Coculture techniques

Epithelium

Hydrogels

Keratins

Rabbits

Amine

Cornea

Limbal epithelial cells

Synthetic hydrogels

Comparative responses of human keratinocyte cells (HaCaT) and human lung carcinoma epithelial cells (A549) following in vitro exposure to Silicon dioxide nanoparticles (SiO2-NP)

Islam, I., Khan, M., Liu, Xiangli, Parmar, A., Shang, Lijun

January 2015

No / The use of nanoparticles have provided numerous of advantages in medicine due to their unique physiochemical characteristics such as size, charge, shape and surface reactivity [1-4]. Understanding the interaction between engineered nanomaterials and living matter has attracted increasing attention in recent years. Toxicity of nanoparticles was studied in different cell types and cell lines. Nano-SiO2 has good stability, easy dispensability, and melting degeneration, and is widely used in rubber, paints, biomedical and biotechnology fields [5]. In this study, the LDH assay and the MTT assay were applied to evaluate the cytotoxicity of in vitro Silicon dioxide nanoparticles (SiO2-NP, 20nm) on cultured cell lines. Human lung adenocarcinoma epithelial cell line (A549) were used as a lung related cell line and human keratinocyte cell line (HaCaT) as a skin related cell line representing different uptake routes. The percentage cytotoxicity of the silicon dioxide nanoparticles was measured once cultured in a 24 hour incubation period. The concentration of the SiO2 nanoparticles chosen was 10, 50, 100 and 200µg/ml. To measure the cytotoxicity of nanoparticle on cultured cell lines, we used 104*cells/100 µl of cell culture media being placed in a 96 well rounded bottom plate with the LDH assay. The extracellular lactate dehydrogenase release was measured by using a colorimetric CytoTox 96 non-radioactive assay kit and the absorbance was recorded at 492nm. The MTT assay was used to evaluate mitochondrial activity which includes cell growth and cell death. This has been performed by inserting a premixed optimized dye solution in the culture wells. The Absorbance was recorded at 570 nm, from the recorded absorbance is directly proportional to the number of live cells. In order to maintain the cell lines, they were placed in a plastic T-75cm² tissue culture flasks grown in Dulbecco's Modified Eagle's Medium. Studies were performed in the absence of serum. Cytotoxicity was found in both cells the A549 and HaCaT cells and cytotoxicity increased as concentration of the silicon dioxide increased. The percentage cytotoxicity calculated was higher in HaCaT cells compared to the A549 cells. A cell count assay was plated in order to display the cell number of both the HaCaT and A549 cells. The cell count reaffirmed that cytotoxicity did occur as the cell count decreased as the concentration of the silicon dioxide increased compared to the control. These results show that silicon dioxide nanoparticles acted differently in two different cell types and that the metabolic rate of a cell can be used to determine the nanoparticles affect. Further understanding of the mechanism involving the ROS generation could provide more information on how silicon dioxide nanoparticles increase cytotoxicity. / Physiology 2015 conference abstract

Human Keratinocyte cells

HaCaT

Human lung cancer epithelial cells

A549

Silicon dioxide nanoparticles

SiO2-NP

Adipose tissue-derived mesenchymal stem cells for breast tissue regeneration

Banani, M.A., Rahmatullah, M., Farhan, N., Hancox, Zoe, Yousaf, Safiyya, Arabpour, Z., Salehi Moghaddam, Z., Mozafari, M., Sefat, Farshid

02 March 2021

Yes / With an escalating incidence of breast cancer cases all over the world and the deleterious psychological impact that mastectomy has on patients along with several limitations of the currently applied modalities, it's plausible to seek unconventional approaches to encounter such a burgeoning issue. Breast tissue engineering may allow that chance via providing more personalized solutions which are able to regenerate, mimicking natural tissues also facing the witnessed limitations. This review is dedicated to explore the utilization of adipose tissue-derived mesenchymal stem cells for breast tissue regeneration among postmastectomy cases focusing on biomaterials and cellular aspects in terms of harvesting, isolation, differentiation and new tissue formation as well as scaffolds types, properties, material–host interaction and an in vitro breast tissue modeling.

Adipose tissue-derived stem cells

ADSCs

Breast cancer

Epithelial cells

Mastectomy

Microenvironment

Reconstruction

Scaffold

Tissue engineering

Identification of a Homeostatic Stem Cell Population in the Intestinal Upper Crypt

Capdevila Castillo, Claudia

January 2024

In the prevailing model, R-spondin (Rspo)-dependent 𝘓𝘨𝘳5+ crypt base columnar (CBC) cells are the only dedicated intestinal stem cells (ISCs) that sustain epithelial regeneration during homeostasis by upward migration of their progeny through an elusive transit-amplifying (TA) intermediate in the upper crypt. Paradoxically, the intestinal epithelium is resilient to 𝘓𝘨𝘳5+ CBC cell loss. Elicited by intriguing R-spondin (Rspo) gain- and loss-of-function phenotypes that suggest regeneration emerges from a subset of 𝘓𝘨𝘳5- cells, here we combine single-cell RNA-sequencing (scRNA-seq) with time-resolved fate mapping to identify a proliferative population of multi-potent upper crypt cells in the putative location of TA cells. Distinct from the 𝘓𝘨𝘳5+ CBC cells and marked by expression of 𝘍𝘨𝘧𝘣𝘱1 - a gene which we demonstrate is essential for regeneration - these cells generate progeny that migrate bi-directionally along the crypt-villus axis and, unexpectedly, also serve as a source for the 𝘓𝘨𝘳5+ cells at the base. 𝘍𝘨𝘧𝘣𝘱1+ cells are resilient to Rspo signaling blockade and sustain epithelial homeostasis in the context of 𝘓𝘨𝘳5+ cell loss, suggesting functional independence. Consistent with their stem rather than TA cell function, our results point to the existence of a novel cellular hierarchy in the intestinal epithelium, contesting the regenerative capabilities of the 𝘓𝘨𝘳5+ CBC cell and helping reconcile many of the 𝘓𝘨𝘳5+ CBC model inconsistencies.

Cytology

Developmental biology

Medicine

Stem cells--Research

Intestines

Epithelial cells

Nucleotide sequence

An Approach to Lens Regeneration in Mice Following Lentectomy and the Implantation of a Biodegradable Hydrogel Encapsulating Iris Pigmented Tissue in Combination with Basic Fibroblast Growth Factor

Baddour, Joelle

11 May 2012

No description available.

Biology

Biomedical Engineering

Biomedical Research

Chemical Engineering

Developmental Biology

Lens Regeneration

Iris Pigmented Epithelial Cells

Lens Epithelial Cells

Transdifferentiation

Differentiation

Fibroblast Growth Factor (FGF)

Hydrogel

Poly-&949

-caprolactone (PCL)

Nanofibers

Mouse

Etablierung und Charakterisierung einer Kokultur equiner endometrialer Epithel- und Stromazellen

Lapko, Liv

25 May 2016

Ziel dieser Studie war die Etablierung einer Kokultur aus equinen endometrialen Epithel- und Stromazellen. Nach der erfolgreichen Umsetzung des Kokulturmodells sollte im weiteren Versuchsablauf durch die Zugabe von 17β-Östradiol (E2) und/oder Progesteron (P4) zum Nährmedium der Einfluss der Hormone auf die Zellen untersucht werden. Neben einer lichtmikroskopischen Auswertung der zytomorphologischen Charakteristika beider Zellarten sollte die Expression der Steroidhormonrezeptoren Östrogenrezeptor α und Progesteronre-zeptor sowie der uterinen Proteine Uteroglobin und CalbindinD9k immunzytologisch überprüft werden. Für die Etablierung der Kokultur wurden Endometriumproben von lebenden (n = 5) sowie frischtoten (n = 4) Stuten gewonnen. Eine jeweils parallel entnommene Gewebeprobe von jedem Tier wurde in Formalin fixiert und diente als Referenzmaterial (in situ). Auf die Zelliso-lierung (mechanisch und enzymatisch) folgte die Separation von Epithel- und Stromazellen (EZ/SZ) mittels Filtration, Dichtegradientenzentrifugation und Differenzialadhärenz. An-schließend wurden die EZ auf die Außenseite von Millicell®-Membraneinsätzen aufgebracht. Nach zwei Tagen erfolgte das Einsäen der bis zu diesem Zeitpunkt separat kultivierten SZ auf die Innenseite der Membranen. Als Nährmedium diente ein Gemisch aus DMEM und Ham’s F-12, wobei diesem 2,5 % fötales Kälberserum sowie verschiedene Additive zugesetzt wurden. Ab Kulturtag 4 wurden dem Medium definierte Konzentrationen und Kombinationen von E2 und P4 zugesetzt. Die Kultivierung erfolgte bei einem CO2-Partialdruck von 5 % in 37 °C warmer wasserdampfgesättigter Raumluft. Mit der polarisationsmikroskopisch er-fassbaren Ausbildung durchgehender Zellrasen („scheinbare Konfluenz“) wurden die Kokul-turen in Formalin fixiert und für die Lichtmikroskopie aufgearbeitet. Das Ausgangsgewebe zeigte mehrheitlich eine sekretorische Funktionsmorphologie (n = 6). Einzelne Endometrien befanden sich in einem Übergangsstadium von der Sekretions- zur Proliferationsphase (n = 1), bzw. vice versa (n = 1) oder wiesen eine irregulär proliferative Differenzierung (n = 1) auf. Im Rahmen der Kokultivierung bildeten die EZ innerhalb der Schnittebene vier und die SZ drei verschiedene morphologische Zelltypen aus. Dabei traten rundovale bis polygonale EZ (Typ 1) selten bis gelegentlich, spindelförmige EZ (Typ 2) gelegentlich bis häufig und iso-prismatische (Typ 3) sowie mehrschichtig wachsende EZ (Typ M) jeweils selten auf. Die SZ zeigten innerhalb der Schnittebene selten eine rundovale bis polygonale Zellform (Typ 1), sehr häufig eine spindelförmige Morphologie (Typ 2) und selten ein mehrschichtiges Wachstum (Typ M). Ein Zusammenhang zwischen der endometrialen Funktionsmorphologie zum Zeitpunkt der Zellisolierung oder dem Hormonzusatz und der Häufigkeitsverteilung der Zell-typen sowie der Wachstumsgeschwindigkeit der kultivierten Zellen war nicht offensichtlich. Zytokeratin 19 wurde stets von EZ exprimiert, während es auf Seiten der SZ nur sporadisch in maximal 5 % der Zellen im Bereich mehrschichtig wachsender Zellrasen auftrat. Die Stero-idhormonrezeptoren konnten lediglich in einzelnen Kokulturen aus sekretorisch differenzier-tem Ausgangsgewebe detektiert werden. Uteroglobin wurde in vitro mit einer variablen Häufigkeit in den EZ-Typen exprimiert. Während ein übergreifender Zusammenhang zur hormonellen Supplementierung nicht abgeleitet werden konnte, wurde jedoch ersichtlich, dass im Bereich einschichtig wachsender EZ in Ansätzen aus sekretorisch differenzierten Endometrien unter niedrigen Hormondosen (Zusatz von entweder nur E2 oder nur P4) im Median häufiger Uteroglobin exprimiert wurde. Mit zunehmender Hormonkonzentration im Medium nahm der Anteil immunopositiver Zellen (Typen 1, 2 und 3) deutlich ab. Innerhalb der Stromazellpopulation wurde Uteroglobin selten und ausschließlich in Zellen aus sekretorisch differenziertem Ausgangsmaterial nachgewiesen. CalbindinD9k wurde in vitro vornehmlich intrazytoplasmatisch und sehr vereinzelt intranukleär exprimiert. Insgesamt konnte das Protein in vitro stets in wenigen Typ-1-EZ, sehr selten in Typ-2-EZ und in einer geringen bis mäßigen Anzahl von Typ-3- und Typ-M-EZ beobachtet werden. Innerhalb der Stromazellpo-pulation trat CalbindinD9k ausschließlich in einer geringen (Endometrien aus dem Östrus) bis mäßigen (Endometrien aus dem Interöstrus) Anzahl der Typ-2- und wenigen Typ-M-SZ auf. Insgesamt wurden keine deutlichen Einflüsse der endometrialen Funktionsmorphologie zum Zeitpunkt der Zellisolierung und/oder der hormonellen Supplementierung in vitro auf die im-munzytologischen Charakteristika der kokultivierten Zellen ersichtlich. Abschließend betrachtet, konnte ein Kokultursystem equiner endometrialer Epithel- und Stromazellen erfolgreich etabliert und charakterisiert werden. Es bietet dabei, trotz der z. T. fehlenden Kongruenz zu den Gegebenheiten in situ, Ansätze für potenzielle Folgearbeiten, insbesondere hinsichtlich der Erfassung interzellulärer Wechselwirkungen sowie bezüglich der Vermittlung und Wirkung hormoneller Einflüsse auf zellulärer Ebene. / The aim of the present study was the establishment of a coculture system of equine endome-trial epithelial and stromal cells. Subsequent to the successful development of the coculture model the culture medium should be supplemented with 17β-estradiol (E2) and/or progester-one (P4) in order to study the influence of the hormones on the cellular level. In addition to the examination of cytomorphological characteristics of both cell types via light microscopy, the expression of the steroid hormone receptors (estrogen receptor α and progesterone receptor) as well as of the uterine proteins Uteroglobin and CalbindinD9k was investigated. For the establishment of the coculture system endometrial samples were obtained from living (n = 5) as well as freshly deceased mares (n = 4). A simultaneously taken tissue specimen of each animal was fixed in formalin and served as in situ reference material. After an initial mechanical and enzymatical isolation the epithelial and stromal cells (EC/SC) were separat-ed via filtration, density gradient centrifugation and differential adhesion. Subsequently, the EC were applied to the outer surface of Millicell® inserts. The SC were cultivated separately for 2 days before they were seeded onto the inner surface of the same insert. The culture medium used was comprised of a DMEM and Ham‘s F-12 basis as well as 2.5 % foetal calf serum and different additives. Starting on day 4 of cultivation the standardised medium was supplemented with different concentrations and combinations of E2 and P4. Throughout the study the cultures were kept in a humidified atmosphere of 37°C and a 5 % partial pressure of carbon dioxide. Once the cocultures formed continuous cell layers, as determined via a polarisation microscope (“apparent confluency”), the membranes were fixed in formalin and routinely processed for light microscopical evaluation. The initial tissue samples predominantly showed a secretory functional morphology (n = 6), while single specimens were obtained during the transition from the secretory to the prolifera-tive phase (n = 1) or vice versa (n = 1). One endometrial sample exhibited an irregular proli-ferative differentiation. In the course of cocultivation the EC formed 4 and the SC 3 different cellular morphologies within the section plane. EC with a round-oval to polygonal cell form (type 1) were rarely to occasionally encountered, while spindle-shaped EC (type 2) were occasionally to frequently seen and EC with a cuboidal morphology (type 3) as well as such cells growing in stratified layers (type M) were only infrequently detected. The SC only rarely showed a round-oval to polygonal cell form (type 1) or areas of a stratified cell growth (type M), whereas spindle-shaped SC (type 2) were observed very often. A correlation of the endometrial functional morphology at the time of cell isolation or the hormonal supplementation and the frequency distribution of the cell types as well as the growth rate of the cultivated cells was not evident. The EC always expressed Cytokeratin 19, while on the side of the SC only up to 5 % of the cells in areas of stratified cell growth exhibited this filament. Solely in individual cocultures from secretory differentiated endometrial tissue the steroid hormone receptors could be de-tected. Uteroglobin was expressed in vitro in EC with a variable frequency. An overall corre-lation of the hormonal supplementation and the Uteroglobin expression could not be derived. However, under low hormone doses (only E2 or only P4 supplement) Uteroglobin was detect-ed in EC in areas of single-layered cell growth more often (median value). With an increase in hormone concentration the amount of immunopositive cells (types 1, 2 and 3) diminished noticeably. In SC the protein could only rarely be seen and exclusively in cells from endome-tria with a secretory functional morphology. In vitro CalbindinD9k was predominantly detected intracytoplasmatically, while single cells showed an additional intranuclear expression. Alto-gether, CalbindinD9k could always be observed in a few type-1-EC, rarely in type-2-EC and with a variable frequency in small to moderate numbers of type-3- and type-M-EC. In SC the protein was exclusively expressed in a small (endometrial samples form the oestrous phase) to moderate (endometrial tissue from the interoestrous phase) number of type-2-SC and a few type-M-SC. Generally, no distinct influence of the endometrial functional morphology at the time of tissue sampling and/or of the hormonal supplementation in vitro on the immuno-cytochemical characteristics of the cocultured cells could be observed. In summary, a coculture system of primary equine endometrial epithelial and stromal cells was successfully established and characterised. Despite of the partly absent congruence to the in situ conditions/prerequisites, the present study offers a basic approach and scaffold for further investigations, particularly regarding the ascertainment of intercellular dependencies or the mediation and effectiveness of hormonal influences on the cellular level.

Stute

Endometrium

Kokultur

Epithelzellen

Stromazellen

Östrogen

Progesteron

mare

endometrium

co-culture

epithelial cells

stromal cells

oestrogen

progesterone

ddc:636.089

IL-36γ Augments Host Defense and Immune Responses in Human Female Reproductive Tract Epithelial Cells

Winkle, Sean M., Throop, Andrea L., Herbst-Kralovetz, Melissa M.

17 June 2016

IL-36 gamma is a proinflamatory cytokine which belongs to the IL-1 family of cytokines. It is expressed in the skin and by epithelial cells (ECs) lining lung and gut tissue. We used human 3-D organotypic cells, that recapitulate either in vivo human vaginal or cervical tissue, to explore the possible role of IL-36 gamma in host defense against pathogens in the human female reproductive tract (FRT). EC were exposed to compounds derived from virus or bacterial sources and induction and regulation of IL-36 gamma and its receptor was determined. Polyinosinic-polycytidylic acid (poly I:C), flagellin, and synthetic lipoprotein (FSL-1) significantly induced expression of IL-36 gamma in a dose-dependent manner, and appeared to be TLR-dependent. Recombinant IL-36 gamma treatment resulted in self amplification of IL-36 gamma and its receptor (IL-36R) via increased gene expression, and promoted other inflammatory signaling pathways. This is the first report to demonstrate that the IL-36 receptor and IL-36 gamma are present in the human FRT EC and that they are differentially induced by microbial products at this site. We conclude that IL-36 gamma is a driver for epithelial and immune activation following microbial insult and, as such, may play a critical role in host defense in the FRT.

IL-1 family

IL-36 gamma

human epithelial cells

antimicrobial peptides

innate immunity

IL-36 receptor

microbial products

inflammatory mediators