The effect of fetal and neonatal growth on blood pressure development

Steyn, Clare Elizabeth

January 1997

No description available.

610

Investigation of genetic and developmental defects in the L11Jus8 mutant mouse

Clowes, Christopher

January 2012

Mutagenesis screening in mice is an effective means of identifying essential genes in cardiovascular development. The l11Jus8 (L8) mutant mouse line was originally isolated from a region-specific N-ethyl-N-nitrosourea (ENU) chemical mutagenesis screen and exhibited an autosomal recessive mid-gestational embryonic lethal phenotype characterised by haemorrhage in the thoracic cavity, blood pooling in the heart, right ventricular dysmorphology and yolk sac vascular degeneration. Prior work mapped the L8 mutation to a ~2.77Mb region on mouse chromosome 11. The aim of this study was to further characterise the L8 mutant phenotype and identify the L8 causative mutation. Phenotypic characterisation conducted here confirmed mid-gestational lethality, haemorrhage and yolk sac vascular degeneration in L8 mutants. Histological analysis of L8 mutants demonstrated presence of fragmented cell nuclei and loss of myocardial integrity in embryonic atrial myocardium. Areas of fragmented cell nuclei did not exhibit positive staining for apoptosis. Furthermore, L8 mutants did not appear to experience typical cardiac defects in aspects including myocardial or smooth muscle differentiation, cell proliferation, ECM production, myocardial hypoplasia/hyperplasia, basement membrane components or observable aberrations in cardiac conduction. L8 mutants exhibited atypical cardiac defects including sudden cessation of heartbeat with morphological indicators of necrosis such as swelling of mitochondria and release of microparticles both from atrial myocardial cells. The L8 mutant appears to represent a novel combination of cardiac defects or novel defects with secondary cardiac phenotypes. Sequencing of the coding exons and splice junctions of 22 candidate genes within the ~2.77Mb L8 locus did not identify the causative mutation. The L8 locus was therefore further refined to a ~1.16Mb region including 20 genes. Sanger sequencing of 10 of these genes plus targeted sequence capture and SOLiD sequencing of the region did not identify a potential L8 mutation. Given the refinement of the candidate locus and advances in sequencing technology and analysis, further sequencing will likely identify the L8 mutation and confirm the cause of the embryonic lethal phenotype.

616.1

The role of ERK5 in endothelial cell function

Nithianandarajah-Jones, G.N., Wilm, B., Goldring, C.E., Muller, Jurgen, Cross, M.J.

01 December 2014

Yes / Extracellular-signal-regulated kinase 5 (ERK5), also termed big MAPK1 (BMK1), is the most recently discovered member of the mitogen-activated protein kinase (MAPK) family. It is expressed in a variety of tissues and is activated by a range of growth factors, cytokines and cellular stresses. Targeted deletion of Erk5 in mice has revealed that the ERK5 signalling cascade is critical for normal cardiovascular development and vascular integrity. In vitro studies have revealed that, in endothelial cells, ERK5 is required for preventing apoptosis, mediating shear-stress signalling and regulating tumour angiogenesis. The present review focuses on our current understanding of the role of ERK5 in regulating endothelial cell function. / Biotechnology and Biological Sciences Research Council, the Medical Research Council and the Wellcome Trust

Molekulární mechanismy v diabetické embryopatii / Molecular mechanisms in diabetic embryopathy

Čerychová, Radka

January 2013

Diabetic embryopathy is one of many serious complications associated with diabetes. It is known that maternal diabetes increases the frequency of congenital defects up to ten times. The most common defects are cardiovascular and neural tube defects. Molecular mechanisms of diabetic embryopathy are still not known. This work contributes to elucidation of molecular processes leading to development of cardiovascular defects in diabetic embryopathy. This study is based on observation that maternal diabetes affects transcriptional regulation of hypoxia-inducible factor 1 (HIF-1) in developing embryo. To study the influence of maternal diabetes on HIF-1 signaling pathway, we used mouse model heterozygous for "knock-out" of Hif1α gene. Our analyses showed the negative combinational effects of maternal diabetes and Hif1α+/- genotype on embryonic development and increased risk of diabetic embryopathy. Histological analysis demonstrated the increased incidence of cardiovascular defects, particularly defects of interventricular septum and hypoplastic compact left ventricular wall in embryonic day (E) 14.5 Hif1α+/- embryos compared to wt littermates from the diabetic pregnancy. Using qPCR, we analyzed gene expression changes in the embryonic hearts at E9.5 and E10.5. We selected genes important for the...

The Impact of Developmental Stress on Cardiovascular Physiology of Two Archosaur Species: American Alligator (Alligator mississippiensis) and Domestic Chicken (Gallus gallus)

Tate, Kevin B.

12 1900

Crocodilians and birds comprise sister taxa of archosaurs, the development of these vertebrates occurs within an egg case that leaves developing embryos susceptible to fluctuations in the nesting environment. Studies suggest that sub-optimal conditions alter morphological growth and cardiovascular physiology. Regulation of the cardiovascular system is immature in the subjects studied, and embryos may rely on humoral rather than neural control of the cardiovascular system. The primary focus of this dissertation was to assess regulatory mechanisms responsible for maintenance of arterial pressure and heart rate. Dehydration stress had marked effects on embryo growth, and altered baseline cardiovascular parameters, while leaving the response to humoral regulator, angiotensin II (Ang II), unaffected. However, dehydrated alligator embryos developed cholinergic tone on heart rate. Hypoxic incubated chicken embryos were reduced in embryo mass, and altered response to humoral regulatory components Ang I and adenosine in addition identifying a novel regulatory component of the cardiovascular response to acute hypoxia. Collectively, these studies add to the existing knowledge of cardiovascular physiology in embryonic archosaurs and suggest that some components of cardiovascular regulation are plastic following developmental stress.

Developmental stress

cardiovascular development

cardiovascular physiology

Effects of alcohol on the development of the cardiovascular system in Pekin Ducks (Anasplatyrhynchos): An assessment of current empirical findings and the development of aresearch protocol utilizing Pekin Ducks

McKean, Josephine Kay

30 April 2021

No description available.

Biology

Fetal Alcohol Syndrome

FAS

Fetal Alcohol Spectrum Disorders

Pekin ducks

Anas platyrhynchos

avian models

ethanol

alcohol

cardiovascular system

heart development

avian cardiovascular development