Orforglipron, a novel oral, non-peptide glucagon like peptide-1 (GLP-1) receptor agonist, has demonstrated efficacy in improving body weight reduction and glycemic control. However, its potential bene Show more
Orforglipron, a novel oral, non-peptide glucagon like peptide-1 (GLP-1) receptor agonist, has demonstrated efficacy in improving body weight reduction and glycemic control. However, its potential benefits in improving cardiovascular (CV) risk factors have yet to be determined. We assessed the effect of orforglipron in participants with type 2 diabetes (T2D) and/or overweight or obesity on blood pressure, lipid, and inflammatory biomarkers associated with risk for major adverse cardiovascular events. Using data from participants with available samples from Phase 2 trials of orforglipron in participants with T2D (N = 361) or with overweight or obesity without diabetes mellitus (N = 234), we performed an exploratory analysis of changes in CV risk markers. For the T2D study, participants mean age 59 years, 40% were assigned female at birth with a mean HbA Significant placebo-adjusted decreases from baseline in blood pressure, low-density lipoprotein (LDL) cholesterol, triglycerides, ApoB, ApoC3, and hsCRP were observed following orforglipron treatment in participants with T2D and/or overweight or obesity. In both studies, improvements in blood pressure, lipid parameters, and most of the evaluated biomarkers were of similar magnitude after treatment with 12 mg orforglipron as with 24, 36, and 45 mg. Orforglipron treatment was associated with beneficial changes in CV risk markers in participants with T2D and in participants with overweight/obesity without T2D. (Clinicaltrials.gov: NCT05048719, NCT05051579). Show less
Neuroprotective properties of estrogen have poorly translated to reduced neurodegeneration in clinical trials of systemic estrogen replacement therapy. To more directly assess biological processes ass Show more
Neuroprotective properties of estrogen have poorly translated to reduced neurodegeneration in clinical trials of systemic estrogen replacement therapy. To more directly assess biological processes associated with brain estrogen (estrone, estradiol) levels, we recruited 81 women (42 non-white) and 28 men (13 non-white) for cerebrospinal fluid (CSF) hormone, targeted proteomic, and volumetric brain analysis. In the mostly post-menopausal women, we found CSF estrogen levels to only modestly correlate with their corresponding plasma levels, and were additionally influenced by body mass index or age. CSF estrone was also correlated with a marker of Alzheimer’s disease (AD) neuropathologic change (CSF Aβ42/Aβ40), but this was not the case for the more biologically active CSF estradiol. Aptamer-based proteomic analysis of 1,075 CSF markers for inflammation, proteolysis, signaling, and DNA/RNA regulation revealed CSF estrogen levels to associate with alternative complement pathway proteins, and shifts observed in AD (apoE, RAGE). Parallel MRI analysis correlated higher CSF estrogen with smaller volumes of the brain somatosensory and posterior-medial networks without influence from cognition or neurodegeneration. Analysis using plasma estrogens only partially reproduced CSF estrogens’ biochemical correlates but provided inconclusive relationships with brain volume correlates. These findings highlight the association between CSF levels of the more biologically active estradiol and CSF inflammatory pathways involving AD risk genes as potential mechanisms linking hormone status to AD risks, and suggest caution in using CSF estrone or plasma estrogens when interpreting treatment or preventive studies. The online version contains supplementary material available at 10.1186/s12974-025-03657-3. Show less