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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Early life programming of adult Leydig cell function

Kilcoyne, Karen January 2014 (has links)
There is increasing evidence to suggest that fetal events can predetermine reproductive health and general wellbeing in adulthood, a process termed 'fetal programming'. This refers to the association between altered fetal growth/development and health disorders in adulthood e.g. the metabolic syndrome, which is linked to low male testosterone levels. Studies from both Europe and the USA have shown that adult male testosterone levels have been declining, independent of age. As low testosterone levels in aging men are associated with increased morbidity and mortality, this highlights the importance of investigating how testosterone levels are determined or potentially ‘programmed’ during fetal development. Evidence from human and rodent studies have shown that reduced fetal androgen exposure results in lower adult testosterone levels, although the mechanism(s) is unknown, to date. One way to explain how a fetal insult (e.g. androgen deficiency) could affect (testosterone producing) adult Leydig cells in adulthood, is if their progenitor cells were present during fetal life and were thus affected by such an insult. This hypothesis has been unexplored to date, due to the lack of a unifying/defining marker for adult Leydig progenitor cells. An earlier study promoted the hypothesis for the studies in this thesis, namely that chicken ovalbumin upstream promoter transcription factor-II (COUP-TFII) might constitute such a marker, as inducible knockout of COUP-TFII in pre-pubertal male mice results in failure of adult Leydig cells to develop. Therefore, the hypothesis which was explored in this thesis was that 'fetal programming' of COUP-TFII+ adult Leydig progenitor cells prior to their differentiation into adult Leydig cells, would explain how fetal events could predetermine adult testosterone levels. To investigate whether adult Leydig cells (ALC) develop from COUP-TFII+ interstitial cells, firstly an adult Leydig cell ablation/regeneration model was used, which involved a single injection of ethane dimethane sulphonate (EDS). This identified that in rats, ALC derive from COUP-TFII+ interstitial cells which do not express any other phenotypical adult Leydig or interstitial cell markers prior to differentiation. Secondly, COUP-TFII+ adult Leydig progenitor cells are abundant in the fetal testis and conserved across species, including man. Thirdly, fetal interstitial cells which differentiated into ALC, as evident from an ALC lineage tracer model, also expressed COUP-TFII. Overall, these findings suggest that the COUP-TFII+ interstitial cells which differentiate into ALC are 'adult Leydig progenitor cells'. The findings from this thesis also show that the identified adult Leydig progenitor cells express the androgen receptor (AR) in fetal life. Furthermore, experimental reduction of androgen action in fetal life in transgenic mice (AR knockout) or chemical manipulations to reduce fetal testosterone levels (di(n-butyl) phthalate; DBP exposure) resulted in a similar reduction (~40%) in progenitor cell numbers from birth through to adulthood. A parallel reduction of adult Leydig cell numbers across postnatal development was found in mice, but not rats, but as a result of altered fetal androgen action, both models showed evidence for compensated adult Leydig cell failure. This is defined as normal/low testosterone and elevated luteinising hormone (LH) levels. Cell-selective knockout of AR in peritubular myoid (PTM) cells (PTM-ARKO) or Sertoli cells (SC-ARKO) did not affect the numerical development of adult Leydig progenitor cells. To manipulate testicular testosterone action in postnatal life, rats were exposed to a potent AR antagonist, flutamide, which reduced the number of adult Leydig progenitor cells but did not affect ALC number/function. However, the combination of fetal DBP+postnatal flutamide exposure reduced adult Leydig progenitor cells and resulted in compensated ALC failure. Overall, these studies highlight the importance of fetal androgens for the normal development of adult Leydig progenitor cells and for the subsequent development of normally functioning adult Leydig cells. As fetal deficits in androgen exposure resulted in adult Leydig cell dysfunction, this thesis also investigated three separate models to determine whether increased fetal androgen exposure could increase/enhance adult Leydig progenitor cell development, resulting in a 'gain of adult Leydig cell function'. In the first model to increase fetal androgen exposure, pregnant dams injected with testosterone propionate (TP; 20mg/kg/day e14-21.5) were discarded, due to confounding factors including fetal growth restriction and aromatisation of TP. The second model utilised dihydrotestosterone (DHT; 10mg/kg/day), administered to pregnant dams, but there were no effects found in adulthood to male offspring. It was concluded that the administered dose was not sufficient to increase intratesticular testosterone levels in the fetus. The third model utilised an inducible nitric oxide synthase knockout (iNOS-/-) mouse model, for which previous evidence showed increased testis weight, Leydig and Sertoli cell number (~50%), and normal testosterone but low LH levels in adulthood. Stereological quantification showed an increase in the number of adult Leydig progenitor cells in postnatal, but not fetal life, which resulted in the conclusion that the observed changes were a consequence of postnatal effects. Finally, a potential mechanism to explain how DBP-induced androgen deficiency in fetal life, could result in adult Leydig cell dysfunction in adulthood was investigated. Analysis of testicular genes in adulthood, involved in the steroidogenic pathway, showed a reduction in 3b-hsd and StAR. The reduced StAR expression was associated with increased repressive histone methylation (H3K27me3) in its proximal promoter region, as demonstrated by a chromatin immunoprecipitation (ChIP) assay, qPCR, and densitometrical analysis. Accordingly, adult Leydig cells were shown to express increased H3K27me3 by immunohistochemistry, a change also evident in adult Leydig progenitor cells in the fetal testis. This would provide a potential mechanism to explain how fetal events can 'programme' adult Leydig cell testosterone production, namely via an epigenetic change to adult Leydig progenitor cells. In summary, the results in this thesis show how fetal events, including androgen action on progenitor cells, can potentially programme adult Leydig cell function and thus determine testosterone levels. As testosterone is crucial to man, the findings reported in this thesis may have important implications for the general health and longevity of man.
2

Experimental and numerical study on failure strength of aspirated cell membrane

Wu, Yang 15 December 2017 (has links)
The objective of this work is to develop an innovative and quantitative method to study cell failure under fluidic pressure to understand cell membrane mechanical properties. Due to lack of experimental data related to cell failure property, the current research focuses on investigating the cell failure using a micro pipette aspiration experiment method to elaborate gradually increasing hydrostatic pressure to the cell causing the membrane to deform and eventually rupture. Based on our observation, the prostate cancer cells (PC-3) deformed into a deflated and flattened shape under higher hydrostatic pressure (249 Pa) while prostate epithelial cells (PrEC LH) cells generate a spherical and rounded shape. The stress along the cell membrane was estimated from the curvature data captured from the 2D microscopic images for each pressure magnitude to quantify the damage before rupture state. From the results, non-transformed prostate epithelial cells (PrEC LH) presented a stiffer and rupture resilient property compared to transformed prostate cancer cells (PC-3) which presented a softer and vulnerable property. Besides, the alteration of shape of the aspirated membrane directly affected the stress distribution over the membrane and as a result, provoked membrane failure. Multiple pieces of research have shown a higher stiffness of healthy cells compared to cancer cells including one of the previous studies done by our group which have also found that cancer cell tends to become stiffer after exposing to fluid shear stress. The discovery of this cellular behavior and novel numerical quantification method of cell failure could advance the study of cancer cell membrane failure, cellular matrix structure, response to mechanical loadings and potentially foundation in developing new treatment for cancer other than destructive chemical treatment.

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