Luise Halang scite author profile

Gestational Diabetes Mellitus (GDM) is characterised by insulin resistance accompanied by reduced beta-cell compensation to increased insulin demand, typically observed in the second and third trimester and associated with adverse pregnancy outcomes. There is a need for a biomarker that can accurately monitor status and predict outcome in GDM, reducing foetal-maternal morbidity and mortality risks. To this end, circulating microRNAs (miRNAs) present themselves as promising candidates, stably expressed in serum and known to play crucial roles in regulation of glucose metabolism. We analysed circulating miRNA profiles in a cohort of GDM patients (n = 31) and nondiabetic controls (n = 29) during the third trimester for miRNA associated with insulin-secretory defects and glucose homeostasis. We identified miR-330-3p as being significantly upregulated in lean women with GDM compared to nondiabetic controls. Furthermore, increased levels of miR-330-3p were associated with better response to treatment (diet vs. insulin), with lower levels associated with exogenous insulin requirement. We observed miR-330-3p to be significantly related to the percentage of caesarean deliveries, with miR-330-3p expression significantly higher in spontaneously delivered GDM patients. We report this strong novel association of circulating miR-330-3p with risk of primary caesarean delivery as a pregnancy outcome linked with poor maternal glycaemic control, strengthening the growing body of evidence for roles of diabetes-associated miRNAs in glucose homeostasis and adaptation to the complex changes related to pregnancy. Gestational Diabetes Mellitus (GDM) is diagnosed as the development of hyperglycaemia during the second or third trimester in pregnant women not previously diagnosed with diabetes 1. The global epidemic of obesity and diabetes has resulted in an increase in the prevalence of diabetes mellitus in women of childbearing age and estimates currently place 5% to 20% of pregnancies as affected by GDM worldwide, due to differences in population demographics, diagnostic criteria, screening methods and maternal lifestyle 2. The significant risk-associations between hyperglycaemia not considered to be within the diagnostic range for overt diabetes and adverse perinatal and maternal outcomes require more accurate measures for monitoring status and predicting outcome in GDM 3. The pathophysiology of GDM manifests as a result of the progressive insulin resistance (IR) and subsequent increased insulin secretion requirement that occurs during normal pregnancy 4. As a result, most women with GDM develop pancreatic beta-cell dysfunction secondary to IR, resulting in impaired glucose tolerance in a setting of IR similar to that of T2DM 5. However, the possible causes of beta-cell dysfunction and IR are not well described, including the contributions of autoimmune and monogenic factors. Meta-analysis of gene expression profiles has indicated that the transcriptome profile in GDM is more similar to that of autoimmune type 1 diabetes mellitus (T1DM...

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A high-fat jelly diet restores bioenergetic balance and extends lifespan in the presence of motor dysfunction and lumbar spinal cord motor neuron loss in TDP-43A315T mutant C57BL6/J mice

Coughlan

Halang

Woods

et al. 2016

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Transgenic transactivation response DNA-binding protein 43 (TDP-43) mice expressing the A315T mutation under control of the murine prion promoter progressively develop motor function deficits and are considered a new model for the study of amyotrophic lateral sclerosis (ALS); however, premature sudden death resulting from intestinal obstruction halts disease phenotype progression in 100% of C57BL6/J congenic TDP-43A315T mice. Similar to our recent results in SOD1G93A mice, TDP-43A315T mice fed a standard pellet diet showed increased 5′ adenosine monophosphate-activated protein kinase (AMPK) activation at postnatal day (P)80, indicating elevated energetic stress during disease progression. We therefore investigated the effects of a high-fat jelly diet on bioenergetic status and lifespan in TDP-43A315T mice. In contrast to standard pellet-fed mice, mice fed high-fat jelly showed no difference in AMPK activation up to P120 and decreased phosphorylation of acetly-CoA carboxylase (ACC) at early-stage time points. Exposure to a high-fat jelly diet prevented sudden death and extended survival, allowing development of a motor neuron disease phenotype with significantly decreased body weight from P80 onward that was characterised by deficits in Rotarod abilities and stride length measurements. Development of this phenotype was associated with a significant motor neuron loss as assessed by Nissl staining in the lumbar spinal cord. Our work suggests that a high-fat jelly diet improves the pre-clinical utility of the TDP-43A315T model by extending lifespan and allowing the motor neuron disease phenotype to progress, and indicates the potential benefit of this diet in TDP-43-associated ALS.

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Riluzole does not improve lifespan or motor function in three ALS mouse models

Hogg

Halang

Woods

et al. 2017

Amyotrophic Lateral Sclerosis and Frontotemporal Degeneration

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Pleiotropic activity of systemically delivered angiogenin in the SOD1G93A mouse model

et al. 2018

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Vascular regression precedes motor neuron loss in the FUS (1-359) ALS mouse model

Crivello

Hogg

Jirström

et al. 2019

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Amyotrophic lateral sclerosis (ALS) presents a poorly understood pathogenesis. Evidence from patients and mutant SOD1 mouse models suggests vascular damage may precede or aggravate motor dysfunction in ALS. We have previously shown angiogenin (ANG) treatment enhances motor neuron survival, delays motor dysfunction and prevents vascular regression in the SOD1G93A ALS model. However, the existence of vascular defects at different stages of disease progression remains to be established in other ALS models. Here, we assessed vascular integrity in vivo throughout different disease stages, and investigated whether ANG treatment reverses vascular regression and prolongs motor neuron survival in the FUS (1-359) mouse model of ALS. Lumbar spinal cord tissue was collected from FUS (1-359) and non-transgenic control mice at postnatal day (P)50, P90 and P120. We found a significant decrease in vascular network density in lumbar spinal cords from FUS (1-359) mice by day 90, at which point motor neuron numbers were unaffected. ANG treatment did not affect survival or counter vascular regression. Endogenous Ang1 and Vegf expression were unchanged at P50 and P90; however, we found a significant decrease in miRNA 126 at P50, indicating vascular integrity in FUS mice may be compromised via an alternative pathway. Our study demonstrates that vascular regression occurs before motor neuron degeneration in FUS (1-359) mice, and highlights that heterogeneity in responses to novel ALS therapeutics can already be detected in preclinical mouse models of ALS..

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Luise Halang

Circulating miR-330-3p in Late Pregnancy is Associated with Pregnancy Outcomes Among Lean Women with GDM

A high-fat jelly diet restores bioenergetic balance and extends lifespan in the presence of motor dysfunction and lumbar spinal cord motor neuron loss in TDP-43A315T mutant C57BL6/J mice

Riluzole does not improve lifespan or motor function in three ALS mouse models

Pleiotropic activity of systemically delivered angiogenin in the SOD1G93A mouse model

Vascular regression precedes motor neuron loss in the FUS (1-359) ALS mouse model

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