Abstract
Mammalian oocytes contain lipid droplets that are a store of fatty acids, whose metabolism plays a substantial role in pre-implantation development. Fluorescent staining has previously been used to image lipid droplets in mammalian oocytes and embryos, but this method is not quantitative and often incompatible with live cell imaging and subsequent development. Here we have applied chemically specific, label-free coherent anti-Stokes Raman scattering (CARS) microscopy to mouse oocytes and pre-implantation embryos. We show that CARS imaging can quantify the size, number and spatial distribution of lipid droplets in living mouse oocytes and embryos up to the blastocyst stage. Notably, it can be used in a way that does not compromise oocyte maturation or embryo development. We have also correlated CARS with two-photon fluorescence microscopy simultaneously acquired using fluorescent lipid probes on fixed samples, and found only a partial degree of correlation, depending on the lipid probe, clearly exemplifying the limitation of lipid labelling. In addition, we show that differences in the chemical composition of lipid droplets in living oocytes matured in media supplemented with different saturated and unsaturated fatty acids can be detected using CARS hyperspectral imaging. These results demonstrate that CARS microscopy provides a novel non-invasive method of quantifying lipid content, type and spatial distribution with sub-micron resolution in living mammalian oocytes and embryos.
Highlights
The metabolism of mammalian oocytes and pre-implantation embryos is crucially dependent upon >100,000 mitochondria (Acton et al, 2004)
In this study we have shown that coherent anti-Stokes Raman scattering (CARS) micro-spectroscopy is a useful tool to visualise lipid droplets (LDs) in mouse eggs and embryos at high spatial resolution in a label-free, non-invasive, and chemically specific manner
It was notable that LDs containing fatty acid (FA) were more aggregated in mature metaphase II (MII) eggs as opposed to immature germinal vesicle (GV) stage oocytes, as quantified by aggregate analysis
Summary
The metabolism of mammalian oocytes and pre-implantation embryos is crucially dependent upon >100,000 mitochondria (Acton et al, 2004). FA metabolism appears to be essential for preimplantation The FA composition of human follicular fluid has been shown to predict the outcome of pregnancies in human in vitro fertilisation (IVF) (Shaaker et al, 2012). This suggests that measuring the amount and type of FA in mammalian oocytes or embryos could be a key tool in both research and clinical studies of mammalian development. In the two most studied and noteworthy species, namely mice and humans, oocytes and embryo lipid content is relatively low, and LD sizes require sub-micronresolution imaging techniques to be resolved (Watanabe et al, 2010)
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