👤 Stephane Huet

Genetic studies have established angiopoietin-related protein 4 (ANGPTL4) as a key regulator of triglyceride metabolism and a promising target to reduce atherosclerotic cardiovascular disease (ASCVD) risk beyond traditional risk factors. Human ANGPTL4 loss-of-function shows no adverse consequences and is associated with reduced triglycerides and remnant cholesterol, and a reduced risk of type 2 diabetes and ASCVD. Nonetheless, development of ANGPTL4 inhibitors has been delayed due to adverse findings in ANGPTL4-knockout mice fed a high saturated fat diet, including lipid accumulation in mesenteric lymph nodes, systemic inflammation, adverse clinical signs, and reduced survival. We previously reported the development and preclinical characterisation of MAR001, an ANGPTL4 inhibitory antibody. Here, we report a comprehensive safety assessment of ANGPTL4 inhibition, including novel analysis of genetic ANGPTL4 loss on mesenteric lymph node architecture in humans and two early-phase clinical trials. MAR001 was evaluated in a first-in-human, randomised, placebo-controlled, single-ascending-dose phase 1 study with three parts in which participants received a single subcutaneous injection of MAR001 or placebo. The study was developed and conducted by Novartis Biomedical Research (Cambridge, MA, USA). Eligible participants enrolled in part 1A were healthy men and women aged between 18 years and 65 years with a bodyweight of at least 50 kg and a BMI of 18-30 kg/m We found no evidence of clinical adversity in human germline ANGPTL4 loss-of-function, adding to preclinical support for initiating human studies. Between Nov 20, 2017, and Sept 10, 2019, in the first-in-human, randomised, placebo-controlled, single-ascending-dose phase 1 study, part 1A enrolled 32 healthy participants: six each received 15 mg, 50 mg, 150 mg, or 450 mg of MAR001, and eight received placebo. Part 1B enrolled 12 participants: nine received 450 mg of MAR001 and three received placebo. Part 1C enrolled 12 participants: eight received 450 mg of MAR001 and four received placebo. Between Nov 24, 2013, and July 1, 2024, in the multidose phase 1b/2a randomised, double-blind, placebo-controlled study, 55 participants were randomly assigned to receive subcutaneous injections of placebo (19 participants) or MAR001 at doses of 150 mg (ten participants), 300 mg (nine participants), or 450 mg (17 participants), followed by a 12-week safety follow-up period. MAR001 was safe and generally well tolerated, and we observed no treatment-related systemic inflammatory biomarker elevations or changes in mesenteric lymph node size or inflammation assessed by MRI. MAR001 (450 mg) yielded placebo-adjusted week 12 mean reductions in triglycerides of 52·7% (90% CI -77·0 to -28·3) and in remnant cholesterol of 52·5% (-76·1 to -28·9). ANGPTL4 inhibition with MAR001 can safely and effectively reduce circulating triglycerides and remnant cholesterol. The findings of these trials support further research and development of MAR001 as a promising potential lipid-lowering therapy to reduce risk of ASCVD. Marea Therapeutics. Show less

Angiopoietin-like protein 4 (ANGPTL4) inhibition is a promising approach to manage atherogenic dyslipidaemia and residual atherosclerotic cardiovascular disease (ASCVD) risk. Human ANGPTL4 loss-of-function (LoF) is associated with reduced plasma triglyceride (TG), remnant cholesterol (RC), and apolipoprotein B (ApoB) levels, and lower risk of type 2 diabetes and ASCVD, without observable safety concerns. However, development of ANGPTL4 inhibitors has been stalled by adverse findings in Angptl4 knockout mice fed a high-saturated-fat diet (HSFD), which show lipid accumulation in mesenteric lymph nodes (MLNs), systemic inflammation, severe adverse clinical signs, and reduced survival. Here, we present the development and preclinical characterisation of MAR001, a humanised monoclonal ANGPTL4 inhibitor antibody. We assessed single-dose MAR001 efficacy in hypertriglyceridemic (HTG) non-human primates (NHPs, n = 4), and safety in two NHP toxicology studies: a 15-week subchronic study with a standard or HSFD (n = 36), and a 9-month chronic study exclusively on an HSFD (n = 24). In HTG monkeys, single-dose MAR001 treatment reduced plasma TG by up to 58%, non-high-density lipoprotein cholesterol by 38%, ApoB by 30%, and RC by 59%. In safety studies, MAR001 was well tolerated without clinically adverse findings with either diet. Animals fed an HSFD exhibited minimal to moderate foamy macrophage formation in MLNs, but importantly, these histological findings did not progress to degeneration, necrosis, inflammation, fibrosis, or other reactive changes, and with no evidence of systemic effects, including no evidence of systemic inflammation or clinical adverse signs. MAR001 improved plasma lipid profiles in NHPs without clinical adversity, even during prolonged HSFD feeding. The favourable NHP safety profile aligns with human ANGPTL4 LoF findings, and contrasts with the severe pathology in mouse knockout models on an HSFD. These findings supported MAR001 clinical studies reported in our concurrent publication, which demonstrated robust lipid improvements without lymphatic pathology. Overall, these findings support continued development of MAR001 as a promising new therapy for ASCVD risk reduction. Marea Therapeutics. Show less

To examine the changes in diagnostic practices and clinical management of patients with 5α-reductase type 2 (SRD5A2) or 17β-hydroxysteroid dehydrogenase type 3 (HSD17B3) deficiency since molecular diagnoses became available. Clinical, laboratory, and therapeutic data were retrieved from the medical records of 52 patients with a molecular diagnosis of SRD5A2 (n = 31) or HSD17B3 (n = 21) deficiency. Temporal trends regarding age at assessment and initial sex assignment over 1994-2020 were qualitatively analyzed. Age at molecular diagnosis was compared between two subgroups of patients according to their year of birth. Fifty-eight percent (n = 30) patients were diagnosed during the perinatal period, 33% (n = 17) during infancy, and 9% (n = 5) during adolescence or adulthood. Over the studied period, the patients' age at initial assessment and diagnosis frankly decreased. The median (range) age at diagnostic confirmation was 10.5 (0-53.2) years for patients born before 2007 and 0.4 (0-9.3) years for those born in 2007 or later (P = 0.029). Genetic testing identified 27 different variants for the SRD5A2 gene (30% novel, n = 8) and 18 for the HSD17B3 gene (44% novel, n = 8). Before 2002, most patients were initially assigned as females (95%, n = 19), but this proportion dropped for those born later (44%, n = 14; P < 0.001). The influence of initial genital appearance on these decisions seemingly decreased in the most recent years. Therapeutic interventions differed according to the sex of rearing. Ten percent (n = 2) patients requested female-to-male reassignment during adulthood. This study showed, over the past two decades, a clear trend toward earlier diagnosis and assignment of affected newborns as males. Show less

We previously reported that a systemic liver X receptor (LXR) agonist promoted macrophage reverse-cholesterol transport (mRCT) in vivo. Because LXR are expressed in multiple tissues involved in RCT (macrophages, liver, intestine), we analyzed the effect of tissue-specific LXR agonism on mRCT. In initial studies, the systemic LXR agonist GW3965 failed to promote mRCT in a setting in which LXR was expressed in macrophages but not in liver or intestine. To evaluate the effect of LXR activation specifically in small intestine on mRCT, wild-type mice were treated with either intestinal-specific LXR agonist (GW6340) or systemic LXR agonist (GW3965). Both GW3965 and GW6340 significantly promoted excretion of [(3)H]-sterol in feces by 162% and 52%, respectively. To evaluate the requirement for macrophage LXR activation, we assessed the ability of GW3965 to promote mRCT in wild-type mice using primary macrophages deficient in LXR alpha/beta vs wild-type macrophages. Whereas GW3965 treatment promoted fecal excretion compared with vehicle, its overall ability to promote mRCT was significantly attenuated using LXR alpha/beta knockout macrophages. We demonstrate that intestinal-specific LXR agonism promotes macrophage RCT in vivo and that macrophage LXR itself plays an important, but not predominant, role in promoting RCT in response to an LXR agonist. Show less

The estrogen receptor alpha (ER alpha) is key in regulating normal breast development and function and is closely involved in the onset and progress of cancers. ER alpha transcriptional activity is mediated through two activation functions, AF1 and AF2, whose activity is tightly regulated in a cell-specific manner through yet unknown processes. Here, we demonstrate that cell-cell junctions generate cell permissiveness to AF1 through an up-regulation of the activity of an AF1 sub-region termed box 1. Moreover, the loss of E-cadherin expression is shown to silence the AF1 activity of ER alpha, allowing the receptor to mainly act through its AF2. This switch from an AF1 to an AF2 cell permissiveness also consequently results in the attenuation of ER alpha activity. Therefore, a loss of cell-cell junctions, a key process that occurs during the epithelial-mesenchymal transition, should have a broad impact on ER alpha transcriptional functions. Show less

Liver X receptor-alpha (LXRalpha) and LXRbeta are ligand-activated transcription factors belonging to the nuclear receptor superfamily. They have been identified as key players in cholesterol homeostasis and lipid and glucose metabolism as well as immune and inflammatory responses. In the small intestine, LXRs have been shown not only to regulate cholesterol absorption and excretion but also to promote high-density lipoprotein biogenesis via the ATP-binding cassette A1 signaling pathway. Here, using gene expression assays, we identified PPARalpha as an intestine-specific LXR target gene. Chronic administration of LXR synthetic agonists led to a significant increase of PPARalpha mRNA levels in the small intestine but not in the liver. In addition, this specific PPARalpha gene up-regulation occurred in the duodenum, jejunum, and ileum in a dose-dependent manner and translated at the protein level as demonstrated by Western blot analysis. Furthermore, PPARalpha gene induction was completely abolished in LXR-deficient mice. Finally, the physiological relevance of LXR-mediated PPARalpha up-regulation in the small intestine was assessed in PPARalpha-deficient mice. Administration of a synthetic LXR agonist to wild-type mice led to the induction of several PPARalpha target genes including PDK4 and CPT1. Those effects were completely abolished in PPARalpha-deficient mice, demonstrating the biological relevance of this LXR-PPARalpha transcriptional cascade. Taken together, these results demonstrate that PPARalpha is an intestine-specific LXR target gene and suggest the existence of a transcriptional cross talk between those members of the nuclear receptor superfamily. Show less