A Near-Full ‘Strawberry Moon' Will Shine Again on Wednesday Night

Night sky observers are being treated this week to a view of a red-tinted full moon — known in June as a 'strawberry moon' — a phenomenon that occurs when the moon sits low on the Southern Horizon.
This summer, the reddish color is particularly pronounced because the moon is sitting at the lowest position it will reach for about 19 years.
The strawberry moon's colorful hues were visible Tuesday night, and it reached its brightest point Wednesday around 4 a.m. Eastern time.
Here's what it looked like:
Each month's full moon has a name.
According to folklore, the name 'strawberry moon' came from Algonquin Native American tribes to commemorate strawberry gathering season. Another name for the full moon in June is 'rose moon,' which may have come from Europe.
'Most of the traditional names we use seem to come from Native American usage, but some are clearly European in origin, like the one in December, called 'the moon before yule,' a reference to Christmas,' said James Lattis, a historian of astronomy at the University of Wisconsin-Madison.
The moon will not sit this low on the Southern Horizon again for about 19 years.
Summer full moons are always low relative to winter full moons in the Northern Hemisphere, and therefore are more reddish in color, Dr. Lattis said. That's because viewing the moon through the atmosphere gives it a reddish hue, much like the colors visible during a sunrise or sunset, he said.
'If one looks straight up into the sky, there's less atmosphere,' he said. 'If you're looking through the horizon, you're looking through the most atmosphere.'
The strawberry moon will still be 'visually full' for observers on Wednesday night.
Dr. Lattis said that he had viewed the moon on Tuesday night in Wisconsin, and that it was notable for the pinkish hue it had from smoke in the air from wildfires. He said the sight may not be as dramatic elsewhere.
'I hate to discourage anybody from going out and looking at the moon — it's a wonderful thing to do, and a lot of times, if you don't give somebody a reason, they'll never do it,' he said. 'But it's just another full moon.'

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Structure Therapeutics Announces Two Late-Breaking Poster Presentations at the American Diabetes Association 85th Scientific Sessions Including New Preclinical Data for Oral Small Molecule Amylin Agonist, ACCG-2671

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'The preclinical data being presented at ADA include the robust weight-loss effects of ACCG-2671 alone and in combination with a GLP-1 receptor agonist underscoring ACCG-2671's potential as a future small molecule backbone treatment for obesity. In addition, we will present data demonstrating the neuroprotective effects of GLP-1 receptor agonism in preclinical models of Parkinson's disease, reinforcing the broad role of the GLP-1 receptor across different diseases.' Presentation Details: Title: Novel Oral Small Molecule ACCG-2671: A Dual Amylin and Calcitonin Receptor Agonist Development Candidate for Obesity TherapyPoster #: 2184-LBSession: Late Breaking Poster SessionDate: Sunday, June 22Time: 12:30 p.m. – 1:30 p.m. CT Summary: ACCG-2671 demonstrated high binding affinity and balanced potency in human calcitonin receptor (CTR) and amylin receptor (AMY3R) functional assays. In diet-induced obese rats, oral administration of ACCG-2671 resulted in significant, dose-dependent body weight reductions. Combination therapy with semaglutide (both as add-on and concurrent treatment) resulted in superior weight loss compared to monotherapy. Title: Oral Small Molecule GLP-1 Receptor Agonist Demonstrates Beneficial Effects in Parkinson's Disease–Like Model Using Humanized GLP-1R MicePoster #: 1985-LBSession: Late Breaking Poster SessionDate: Sunday, June 22Time: 12:30 p.m. – 1:30 p.m. CT Summary: In a Parkinson's disease mouse model, oral administration of GSBR-5595, a small molecule GLP-1 receptor agonist distinct from Structure Therapeutics' clinical asset aleniglipron (GSBR-1290), significantly improved motor coordination and movement in both the rotarod and open field tests. Additionally, histopathological analyses revealed a significant increase in dopaminergic neurons. These findings suggest this GLP-1 receptor agonist showed neuroprotective effects by mitigating motor deficits and preserving dopaminergic neurons, highlighting a potential benefit in Parkinson's disease. About Structure TherapeuticsStructure Therapeutics is a science-driven clinical-stage biopharmaceutical company focused on discovering and developing innovative oral small molecule treatments for chronic metabolic and cardiopulmonary conditions with significant unmet medical needs. Utilizing its next generation structure-based drug discovery platform, the Company has established a robust GPCR-targeted pipeline, featuring multiple wholly-owned proprietary clinical-stage oral small molecule compounds designed to surpass the scalability limitations of traditional biologic and peptide therapies and be accessible to more patients around the world. For additional information, please visit Forward Looking StatementsThis press release contains 'forward-looking statements' within the meaning of the 'safe harbor' provisions of the Private Securities Litigation Reform Act of 1995. All statements other than statements of historical fact are statements that could be deemed forward-looking statements, including, without limitation, statements concerning: the Company's future plans and prospects; the belief that ACCG-2671 is well-positioned and differentiated as an oral small molecule frontrunner; the planned initiation of the ACCG-2671 Phase 1 study and the timing thereof; the belief that the oral small molecule approach gives Structure Therapeutics the opportunity to create more scalable, cost-effective treatments to meet the needs of patients with obesity and other related diseases, without compromising on efficacy or safety; the belief that Structure Therapeutics is well-positioned with one of the most robust oral small molecule metabolic franchises in the industry; and any expectations regarding the safety, efficacy or tolerability of ACCG-2671and other candidates under development. In addition, when or if used in this press release, the words and phrases 'anticipated,' 'expect,' 'on track,' 'plan,' 'potential,' 'to be,' and similar expressions and their variants, as they relate to the Company may identify forward-looking statements. Forward-looking statements are neither historical facts nor assurances of future performance. Although the Company believes the expectations reflected in such forward-looking statements are reasonable, the Company can give no assurance that such expectations will prove to be correct. Readers are cautioned that actual results, levels of activity, safety, performance or events and circumstances could differ materially from those expressed or implied in the Company's forward-looking statements due to a variety of risks and uncertainties, which include, without limitation, risks and uncertainties related to the results from earlier clinical studies not necessarily being predictive of future results, potential delays in the commencement, enrollment and completion of the Company's planned clinical studies, the Company's ability to advance ACCG-2671 and its other therapeutic candidates, obtain regulatory approval of and ultimately commercialize the Company's therapeutic candidates, competitive products or approaches limiting the commercial value of the Company's product candidates, the timing and results of preclinical and clinical studies, the Company's ability to fund development activities and achieve development goals, the Company's reliance on third parties, including clinical research organizations, manufacturers, suppliers and collaborators, over which it may not always have full control, the impact of any global pandemics, inflation, tariffs, changes in monetary and fiscal policy, supply chain issues, rising interest rates, future bank failures and other macroeconomic factors on the Company's business, its ability to protect its intellectual property and other risks and uncertainties described in the Company's filings with the Securities and Exchange Commission (SEC), including the Company's latest Annual Report on Form 10-K and Quarterly Report on Form 10-Q and future reports the Company may file with the SEC from time to time. All forward-looking statements contained in this press release speak only as of the date on which they were made and are based on management's assumptions and estimates as of such date. The Company undertakes no obligation to update such statements to reflect events that occur or circumstances that exist after the date on which they were made, except as required by law. Investors:Danielle KeatleyStructure Therapeutics Media:Dan Budwick1ABDan@ in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data

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Wave Life Sciences Announces Oral Presentation of Preclinical Data Supporting WVE-007's Mechanism (INHBE) to Reduce Fat, Preserve Muscle, and Induce Healthy Weight Loss at ADA's Annual Scientific Sessions

Presentation to highlight WVE-007 (INHBE GalNAc-siRNA) as a potential novel and unique obesity treatment leading to healthy weight loss and supporting preclinical data demonstrating potent and durable reduction in Activin E resulting in fat loss with muscle preservation New preclinical data demonstrate that a single dose of INHBE siRNA leads to lower inflammation of adipose tissue with strong suppression of pro-inflammatory M1 macrophages in visceral fat in DIO mice, highlighting potential mechanistic insights into the risk reduction for type 2 diabetes (T2D) and coronary artery disease (CAD) suggested by human genetics CAMBRIDGE, Mass., June 20, 2025 (GLOBE NEWSWIRE) -- Wave Life Sciences Ltd. (Nasdaq: WVE), a clinical-stage biotechnology company focused on unlocking the broad potential of RNA medicines to transform human health, today announced the presentation of preclinical data supporting WVE-007, its GalNAc-siRNA designed to silence INHBE mRNA, an obesity target with strong evidence from human genetics. The data demonstrate the ability of Wave's long-acting GalNAc-siRNA to reduce INHBE mRNA and Activin E protein, induce weight loss mainly through reduction of fat mass, and reduce pro-inflammatory macrophage recruitment in a diet-induced obese (DIO) mouse model. The data were highlighted today in an oral presentation at the American Diabetes Association's 85th Annual Scientific Sessions, taking place June 20 to 23, in Chicago. 'These exciting preclinical data highlighted in today's presentation both recapitulate human genetics findings and continue to support the potential of WVE-007 to drive weight reduction by reducing Activin E to induce lipolysis – or fat breakdown, preferentially reducing visceral fat, and decreasing inflammation of adipose tissue – all without impacting lean muscle mass. These data suggest a highly differentiated therapeutic profile with lower visceral fat, less insulin resistance and less inflammation, supporting potential for risk reduction of T2D, CAD and other obesity-related co-morbidities,' said Erik Ingelsson, MD, PhD, Chief Scientific Officer. 'Silencing of INHBE is an entirely orthogonal mechanism from GLP-1s, which are centrally acting and impact the digestive system and central nervous system to decrease appetite. If these preclinical data translate in the clinic, WVE-007 has the potential to transform the obesity treatment paradigm by delivering healthy weight loss, preservation of muscle mass, and infrequent dosing of once or twice a year. We are evaluating WVE-007 in our ongoing INLIGHT clinical trial in adults living with overweight or obesity, and we are on track to deliver the first clinical data in the second half of this year.' Human genetics provides strong evidence for INHBE as a therapeutic target. Individuals who have a protective loss-of-function variant in one copy of the INHBE gene have a healthier cardiometabolic profile, including less abdominal fat, lower triglycerides, and lower risk of type 2 diabetes and cardiovascular disease. These heterozygous carriers also exhibit favorable associations with liver traits, including reductions in cT1 (reflecting liver inflammation and fibrosis) and ALT (reflecting liver damage), with no impact on liver fat. The oral presentation titled, 'siRNA-INHBE Silencing in Mice Recapitulates Human Genetic Data and Demonstrates Improved Healthy Weight Loss Profile,' highlighted results from studies in DIO mice that evaluated monotherapy (INHBE-siRNA alone) as well as combination (INHBE siRNA and semaglutide), and maintenance (INHBE siRNA when semaglutide treatment is discontinued) treatment settings. Key results are as follows: A single dose of INHBE-siRNA led to robust target engagement, including reduction of INHBE mRNA and Activin E protein, a lipolysis suppressor that is upregulated in obesity. Liver INHBE mRNA was strongly correlated with serum Activin E levels following INHBE-siRNA treatment. A single dose of INHBE-siRNA led to weight loss on par with semaglutide. There was a decrease in diet-induced visceral adipose mass and shrinkage of adipocytes compared with PBS treatment, supporting the restoration of healthy adipose tissue with this mechanism of action. Muscle mass was preserved. Infiltration of activated macrophages in visceral adipose was significantly decreased by a single dose of INHBE-siRNA compared with PBS controls. INHBE-siRNA also significantly reduced proinflammatory M1 macrophage (CD11c positive) recruitment while sustaining levels of anti-inflammatory M2 macrophages in visceral fat, indicating an overall shift away from a pro-inflammatory state. When administered as an add-on to semaglutide, a single dose of INHBE-siRNA doubled the amount of weight loss, highlighting potential for combination treatment. Wave's INHBE siRNA curtailed rebound weight gain when semaglutide treatment was discontinued, highlighting its potential as an off-ramp and maintenance treatment following GLP-1 treatment. The full presentation can be accessed by visiting 'Scientific Presentations' on the Investors section of the Wave Life Sciences website: About Wave Life SciencesWave Life Sciences (Nasdaq: WVE) is a biotechnology company focused on unlocking the broad potential of RNA medicines to transform human health. Wave's RNA medicines platform, PRISM®, combines multiple modalities, chemistry innovation and deep insights in human genetics to deliver scientific breakthroughs that treat both rare and common disorders. Its toolkit of RNA-targeting modalities includes editing, splicing, RNA interference and antisense silencing, providing Wave with unmatched capabilities for designing and sustainably delivering candidates that optimally address disease biology. 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The words 'may,' 'will,' 'could,' 'would,' 'should,' 'expect,' 'plan,' 'anticipate,' 'intend,' 'believe,' 'estimate,' 'predict,' 'project,' 'potential,' 'continue,' 'target' and similar expressions are intended to identify forward-looking statements, although not all forward-looking statements contain these identifying words. Any forward-looking statements in this press release are based on management's current expectations and beliefs and are subject to a number of risks, uncertainties and important factors that may cause actual events or results to differ materially from those expressed or implied by any forward-looking statements contained in this press release and actual results may differ materially from those indicated by these forward-looking statements as a result of these risks, uncertainties and important factors, including, without limitation, the risks and uncertainties described in the section entitled 'Risk Factors' in Wave's most recent Annual Report on Form 10-K filed with the Securities and Exchange Commission (SEC), as amended, and in other filings Wave makes with the SEC from time to time. Wave undertakes no obligation to update the information contained in this press release to reflect subsequently occurring events or circumstances. 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Vertex Presents Positive Data for Zimislecel in Type 1 Diabetes at the American Diabetes Association 85th Scientific Sessions

– Results from the study continue to demonstrate the transformative potential of zimislecel with consistent and durable patient benefit – – All 12 patients with at least one year of follow-up who received a full dose of zimislecel as a single infusion achieved ADA-recommended target HbA1c levels <7% and >70% time-in-range (70-180 mg/dL), and 10/12 patients were insulin free – – Data presented at ADA simultaneously published in the New England Journal of Medicine – – Vertex to host investor webcast tonight, June 20, 2025, at 7:15 p.m. CT / 8:15 p.m. ET – BOSTON, June 20, 2025--(BUSINESS WIRE)--Vertex Pharmaceuticals Incorporated (Nasdaq: VRTX) today announced simultaneous presentation and publication of updated data from the Phase 1/2 portion of the Phase 1/2/3 FORWARD-101 clinical trial of zimislecel (VX-880), an investigational stem cell-derived, fully differentiated islet cell therapy, in people with type 1 diabetes (T1D) with impaired hypoglycemic awareness and severe hypoglycemic events (SHEs). The data were featured in an oral presentation at the American Diabetes Association (ADA) annual conference in Chicago as part of the symposium, "Innovation and Progress in Stem Cell-Derived Islet-Cell Replacement Therapy," from 6:15-6:30 p.m. CT (abstract 2025-A-1921) and published online by the New England Journal of Medicine. The data are from 12 patients who received the full dose of zimislecel as a single infusion and were followed for at least one year, as of October 2024. Results from the study to date continue to demonstrate the transformative potential of zimislecel with consistent and durable patient benefit with longer follow-up. All 12 participants: Demonstrated engraftment with glucose-responsive endogenous C-peptide production, which was durable through one year of follow-up. Achieved the ADA targets of HbA1c <7% and time in range of >70%. Were free of SHEs from day 90 onwards. Had a reduction in exogenous insulin use (mean reduction in daily insulin dose: 92%). 10/12 (83%) no longer required exogenous insulin at Month 12. Achieved the Phase 1/2 primary endpoint of elimination of SHEs with HbA1c <7%. Zimislecel continues to be generally well tolerated. Most adverse events (AEs) were mild or moderate, and there were no serious AEs related to zimislecel treatment. As previously reported, two patient deaths occurred, both unrelated to treatment with zimislecel. The safety profile is generally consistent with the immunosuppressive regimen used in the study, the infusion procedure, and complications from long-standing diabetes. "These data on the first fully differentiated, stem cell-derived, off-the-shelf islet cell therapy continue to be unprecedented. The magnitude, consistency and durability of the results from all 12 patients with more than one year of follow-up reinforce the transformative potential of zimislecel for people living with T1D complicated by severe hypoglycemia," said Carmen Bozic, M.D., Executive Vice President, Global Medicines Development and Medical Affairs, and Chief Medical Officer at Vertex. "We are excited to complete enrollment and dosing in the Phase 1/2/3 Program and look forward to potential regulatory submissions next year." "It's remarkable to see 12 out of 12 patients with baseline HbA1c above 7% and multiple severe hypoglycemic events reach consensus targets for glycemic control by both HbA1c and time in range as well as elimination of severe hypoglycemic events," said Michael R. Rickels, M.D., M.S., Medical Director, Pancreatic Islet Cell Transplant Program, Willard and Rhoda Ware Professor in Diabetes and Metabolic Diseases, Presenting Author and Steering Committee Co-Chair for the zimislecel clinical program, and author on the New England Journal of Medicine paper. "As I think about my patients and the unmet need in the type 1 diabetes community, the results we've seen so far for restoring endogenous insulin secretion with a stem cell-derived islet therapy bring me hope and confidence for a transformative treatment option for individuals with type 1 diabetes in the not-so-distant future." About Type 1 DiabetesT1D results from the autoimmune destruction of insulin-producing beta cells in pancreatic islets. Insulin deficiency results in hyperglycemia and can lead to acute life-threatening complications such as diabetic ketoacidosis. People with T1D are reliant on lifelong treatment with exogenous insulin that requires careful monitoring of blood glucose levels. Even with the availability of advanced exogenous insulin delivery and glucose monitoring systems, people with T1D can have periods of very low and very high blood sugar levels. Exogenous insulin has a narrow therapeutic range and carries an inherent risk of causing low blood sugar levels or hypoglycemic events, which can potentially result in arrhythmias, seizures, coma and even death. Due to the limitations and complexities of exogenous insulin treatment, it can be difficult for people with T1D to achieve and maintain good glucose control. Exposure to prolonged periods of high blood glucose levels, or hyperglycemia, can lead to long-term complications such as nerve damage, kidney disease/failure, eye disease (including vision loss), cardiovascular disease, stroke and even death. HbA1c is a measure of average blood glucose over the most recent ~2-3 months, and the consensus guidance is to maintain an HbA1c of <7% to reduce the risk of long-term complications; only ~1 in 4 people with T1D globally meet this clinical target. Current standards of care do not address the underlying cause of the disease and leave people with T1D susceptible to both hypo- and hyperglycemia and their associated morbidity and mortality. There is no cure for T1D. About ZimislecelZimislecel (VX-880) is an investigational allogeneic stem cell-derived, fully differentiated, insulin-producing islet cell therapy manufactured using proprietary technology. Zimislecel is being evaluated for patients who have T1D with impaired hypoglycemic awareness and severe hypoglycemia. Zimislecel has the potential to restore the body's ability to regulate glucose levels by restoring pancreatic islet cell function, including glucose-responsive insulin production. Zimislecel is delivered by an infusion into the hepatic portal vein and requires chronic immunosuppressive therapy to protect the islet cells from immune rejection. The zimislecel trial has expanded to additional sites that are currently active and enrolling in the U.S., Canada and Europe. Zimislecel has been granted Regenerative Medicine Advanced Therapy (RMAT) and Fast Track designations from the U.S. Food and Drug Administration, Priority Medicines (PRIME) designation from the European Medicines Agency (EMA), and has secured an Innovation Passport under the Innovative Licensing and Access Pathway (ILAP) from the UK Medicines and Healthcare products Regulatory Agency (MHRA). Zimislecel is investigational and has not been approved by health authorities globally. About VertexVertex is a global biotechnology company that invests in scientific innovation to create transformative medicines for people with serious diseases and conditions. The company has approved therapies for cystic fibrosis, sickle cell disease, transfusion-dependent beta thalassemia and acute pain, and it continues to advance clinical and research programs in these areas. Vertex also has a robust clinical pipeline of investigational therapies across a range of modalities in other serious diseases where it has deep insight into causal human biology, including neuropathic pain, APOL1-mediated kidney disease, IgA nephropathy, primary membranous nephropathy, autosomal dominant polycystic kidney disease, type 1 diabetes and myotonic dystrophy type 1. Vertex was founded in 1989 and has its global headquarters in Boston, with international headquarters in London. Additionally, the company has research and development sites and commercial offices in North America, Europe, Australia, Latin America and the Middle East. Vertex is consistently recognized as one of the industry's top places to work, including 15 consecutive years on Science magazine's Top Employers list and one of Fortune's 100 Best Companies to Work For. For company updates and to learn more about Vertex's history of innovation, visit or follow us on LinkedIn, Facebook, Instagram, YouTube and X. Special Note Regarding Forward-Looking StatementsThis press release contains forward-looking statements as defined in the Private Securities Litigation Reform Act of 1995, as amended, including, without limitation, (i) statements by Carmen Bozic, M.D., and Michael R. Rickels, M.D., M.S., in this press release, (ii) plans, expectations for, and the potential benefits of zimislecel, (iii) expectations for the Phase 1/2/3 clinical trial for zimislecel, including expectations for the trial to complete enrollment and dosing, and (iv) plans for potential regulatory submissions next year. While Vertex believes the forward-looking statements contained in this press release are accurate, these forward-looking statements represent the company's beliefs only as of the date of this press release and there are a number of risks and uncertainties that could cause actual events or results to differ materially from those expressed or implied by such forward-looking statements. Those risks and uncertainties include, among other things, that data from a limited number of patients may not be indicative of final clinical trial results, that data from the company's research and development programs may not support registration or further development of its potential medicines in a timely manner, or at all, due to safety, efficacy, that timelines for regulatory submissions may be longer than anticipated, and other risks listed under the heading "Risk Factors" in Vertex's most recent annual report and subsequent quarterly reports filed with the Securities and Exchange Commission at and available through the company's website at You should not place undue reliance on these statements, or the scientific data presented. Vertex disclaims any obligation to update the information contained in this press release as new information becomes available. (VRTX-GEN) Investor Event and Webcast Vertex will host an investor event on Friday, June 20, 2025, at 7:15 p.m. CT/8:15 p.m. ET, in Chicago, to discuss the positive zimislecel data in type 1 diabetes. A live webcast of the presentation and Q&A portions can be accessed through the Investor Relations section of Vertex's website at An archived webcast will be available on the company's website. View source version on Contacts Vertex Pharmaceuticals IncorporatedInvestors: InvestorInfo@ Media: mediainfo@ orInternational: +44 20 3204 5275