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Wednesday, June 22, 2022

FDA gets complaint of one more infant death related to baby formula

 The U.S. Food and Drug Administration said on Wednesday it was notified of one more infant death in January potentially related to Abbott Laboratories' baby formula and the agency has started a probe.

Abbott initiated a recall of its infant formula products and closed its Michigan plant in February after reports of serious bacterial infections in four infants, worsening a shortage among multiple manufacturers that began with pandemic supply chain issues.

https://www.foxbusiness.com/politics/fda-complaint-one-more-infant-death-related-baby-formula

Dopamine regulates insulin secretion through a complex of receptors

 In a leap forward for diabetes research, Tokyo Tech researchers reveal that the 'feel-good hormone,' dopamine, regulates insulin secretion through a heteromeric complex of receptors, thereby providing new targets for antidiabetic medication and therapy. The study is the first to elucidate the mechanism behind dopamine's down-regulation of insulin secretion.

Diabetes is a lifelong, chronic health condition caused by abnormalities in the body's production and use of the hormone insulin. Research has shown that the feel-good hormone, dopamine (DA), plays a key role in how the body regulates the production of insulin. Typically, insulin is secreted by cells in the pancreas called 'beta-cells,' in response to glucose -- a process that is aptly called 'glucose-stimulated insulin secretion (GSIS). DA negatively regulates GSIS, leading to transient changes in the body's levels of insulins. But the mechanism behind this regulation was unknown, until now.

Recently, a team led by researchers from Tokyo Institute of Technology (Tokyo Tech) uncovered the precise mechanism through which DA regulates insulin secretions. Using a technique called "total internal reflection fluorescence microscopy," they were able to reveal that DA "receptors" -- proteins on cells that DA can bind to -- called D1 and D2, act in concert to achieve the transient regulation of insulin.

"We found that D1 receptor antagonists -- drugs that block D1 receptors from activation -- decreased the dopamine-mediated inhibition of insulin secretion. We also saw that overexpression of only D2 receptors on beta cells exerted an inhibitory and toxic effect and abolished insulin secretion in beta-cells. This gave us a clue to the mechanism of down-regulation," explains Prof. Shoen Kume of Tokyo Tech, who led the study.

The research team then performed further experiments called "proximity ligation" and "Western blot assays" to study the receptors further. They found that D1 and D2 bound to each other to form a complex called a "heteromer." When activated by DA, this heteromer transiently inhibited insulin secretion. They also saw that when D1 and D2 were co-expressed on beta-cells, the cells were able to bypass the toxic effects of D2 overexpression.

Dr. Kume says, "From these findings it can be concluded that D1 modulates D2 signaling to protect beta-cells from the harmful effects of DA. This study greatly improves our understanding of DA signaling in diabetes."

Understanding the mechanism of DA signaling in the regulation of insulin secretion is sure to provide new therapeutic targets for the prevention, treatment, and management of diabetes.


Story Source:

Materials provided by Tokyo Institute of TechnologyNote: Content may be edited for style and length.


Journal Reference:

  1. Fumiya Uefune, Toru Aonishi, Tetsuya Kitaguchi, Harumi Takahashi, Susumu Seino, Daisuke Sakano, Shoen Kume. Dopamine Negatively Regulates Insulin Secretion Through Activation of D1-D2 Receptor HeteromerDiabetes, 2022; DOI: 10.2337/db21-0644


Biomarkers found that could be drug targets against a deadly form of brain cancer

 Biomarkers that could be targets for novel drugs to treat glioblastoma brain tumors have been identified by investigators at Georgetown Lombardi Comprehensive Cancer Center, providing hope for a cancer that is highly lethal.

Currently, the drug most often used to treat glioblastoma, temozolomide, is uniquely able to cross the blood/brain barrier to attack the tumor but resistance develops rapidly, and many patients do not survive for more than a year after diagnosis. This new finding provides early evidence that there may be a benefit in targeting specific alterations in cancer cells with newer agents once a patient's tumor becomes resistant to temozolomide.

The finding appeared June 22, 2022, in Science Advances.

"As a field, we have struggled to deal with the short-term effectiveness of temozolomide, as many of the drugs used successfully in other cancers are disappointing when they are subsequently tested in glioblastoma clinical trials. One way to deal with this problem is to learn enough about how we can target features that help drug-resistant glioblastoma survive," says Rebecca B. Riggins, PhD, Associate Professor and Associate Director of Education and Training at Georgetown Lombardi and co-corresponding author of the study. "We focused on the details of how temozolomide damages DNA to help radiation treatments work better. Our team found that temozolomide-resistant glioblastoma relies on a protein called CLK2, and that inhibiting the activity of CLK2 could cause widespread confusion, leading to cancer cell death."

The targets the researchers identified were alterations in a key structural component of both DNA and RNA, specifically in guanine, one of the four bases that comprise DNA. Modifications to guanine can ultimately have an impact on CLK2, which has been implicated in the aggressiveness of the tumor. Beyond identifying vulnerable modifications, the researchers were able to identify drugs that help stabilize RNA and could potentially slow or stop the resistance that typically develops to temozolomide.

Only about 5% of patients diagnosed with glioblastoma live for five years after diagnosis and median survival is a little over a year; survival rates haven't changed much since the mid-1970s. Temozolomide (Temodar) has been the standard of care since 2005 in combination with surgery and radiation.

Temozolomide's targeting of guanine also impacts structures that regulate key cancer-causing genes. If these cancer-causing genes, called oncogenes, could be kept turned off, the drug might have a longer period of activity. Some of this knowledge was gleaned from studies in a neurogenerative disease, Amyotrophic Lateral Sclerosis (ALS), commonly known as Lou Gehrig's disease. ALS has some features that are similar to glioblastoma, therefore they might also inform new strategies for glioblastoma treatment, the researchers theorized.

"Some of the mechanisms underlying neurodegenerative diseases appear to be relevant to temozolomide resistance in glioblastoma," says Deanna M. Tiek, PhD, a F99/K00 fellow at the Northwestern University Feinberg School of Medicine and The Robert H. Lurie Comprehensive Cancer Center and co-corresponding author. Tiek was a PhD student in Riggins' lab when this research began. "This work demonstrates that inspiration and insight can come from places we might not have considered, and that it's so important to take a risk, do the experiment, and see if you were right or not."

The investigators are now undertaking studies in small animal models, where they will test to see if the novel CLK2 inhibitor can efficiently enter the brain and shrink temozolomide-resistant glioblastoma. "We are also investigating whether other anti-cancer drugs that attack guanine and are commonly used in triple-negative breast cancer and colorectal cancer, for example, change RNA structures in a similar way, which could make CLK2 inhibition more effective in recurrent, drug-resistant forms of those cancers as well," concludes Riggins.


Story Source:

Materials provided by Georgetown University Medical CenterNote: Content may be edited for style and length.


Journal Reference:

  1. Deanna M. Tiek, Beril Erdogdu, Roham Razaghi, Lu Jin, Norah Sadowski, Carla Alamillo-Ferrer, J. Robert Hogg, Bassem R. Haddad, David H. Drewry, Carrow I. Wells, Julie E. Pickett, Xiao Song, Anshika Goenka, Bo Hu, Samuel A. Goldlust, William J. Zuercher, Mihaela Pertea, Winston Timp, Shi-Yuan Cheng, Rebecca B. Riggins. Temozolomide-induced guanine mutations create exploitable vulnerabilities of guanine-rich DNA and RNA regions in drug-resistant gliomasScience Advances, 2022; 8 (25) DOI: 10.1126/sciadv.abn3471



Chinese Online Health Companies Extend Losses Amid Sector Sell-Down

 Shares of Chinese online health companies dropped sharply in afternoon trade in Hong Kong, as a local newspaper report triggered worries about the impact of new industry regulations on the sector's growth.

Alibaba Health Information Technology Ltd. lost as much as 17% after opening down 2.9%. JD Health International Inc. shed 16% while Ping An Healthcare & Technology Co. dropped 6.8%.

The sector's selloff came after a Chinese newspaper, 21st Century Business Herald, published a story on Wednesday analyzing the potential negative impact from a draft rule that would prevent third-party e-commerce platforms from selling drugs directly to consumers online.

But analysts said the proposed rule, if implemented, is unlikely to cause substantial disruptions for major industry players .

"We believe this would have minimal operational impact on Internet healthcare leaders, such as Alibaba Health and Ping An Healthcare," Citi analysts said in a note on Wednesday, adding that these companies' third-party businesses don't participate in direct online drug sales, and thus already comply with the proposed regulations.

The new rule was part of a set of proposed changes to regulations for pharmaceutical development, registration and sales by China's National Medical Products Administration in early May. The regulator sought public feedback on the proposal for a month and the consultation period ended in early June.

Before Wednesday's slide, China's internet health companies have been picking up amid a broad recovery in the country's tech stocks. Excluding Wednesday losses, Alibaba Health were about 39% higher so far in June, while JD Health and Ping An were respectively up 26% and 7.6% this month.

https://www.marketscreener.com/quote/stock/ALIBABA-HEALTH-INFORMATIO-6165753/news/Chinese-Online-Health-Companies-Extend-Losses-Amid-Sector-Sell-Down-40783420/

Ikena Oncology Gets Fast Track Designation for IK-930 Mesothelioma Treatment

 Ikena Oncology Inc. said the U.S. Food and Drug Administration has granted Fast Track designation for IK-930 for patients with unresectable NF2-deficient malignant pleural mesothelioma.

Fast Track designation granted by the FDA facilitates the development and expedites the review of drugs intended to treat serious or life-threatening diseases.

Earlier in 2022, the FDA granted IK-930 Orphan Drug designation, which supports development of drugs for rare disorders, as a potential novel therapeutic option for patients with malignant pleural mesothelioma.

IK-930 is currently being studied in a Phase 1 clinical trial as a monotherapy in patients with advanced solid tumors.

https://www.marketscreener.com/quote/stock/IKENA-ONCOLOGY-INC-120405762/news/Ikena-Oncology-Gets-Fast-Track-Designation-for-IK-930-Mesothelioma-Treatment-40787035/

Radius Health, Menarini Submit New Drug Application to FDA for Elacestrant

 Radius Health Inc. said Wednesday that the Menarini Group, with support from Radius, has submitted a new drug application to the U.S. Food and Drug Administration for elacestrant in patients with advanced or metastatic breast cancer.

Italian pharmaceutical company Menarini will take over activities and be responsible for registration and commercialization, based on the original agreement between the two sides, with the submission of the application, the companies said. Menarini plans to use Stemline Therapeutics, its U.S. subsidiary, to commercialize elacestrant if approved by the FDA, the companies said.

The two companies have requested priority review with the FDA as part of the submission. Radius, a biopharmaceutical company, and Menarini anticipate that the agency would conduct an eight-month review, incorporating a six-month priority designation review, if the priority review is granted, the companies said.

https://www.marketscreener.com/quote/stock/RADIUS-HEALTH-INC-16646142/news/Radius-Health-Menarini-Submit-New-Drug-Application-to-FDA-for-Elacestrant-40790985/

Los Angeles Hospitals Brace For Billions In Earthquake Upgrades By 2030

 By Andrew Cass of Becker Hospital Review

Seventy-three of the 93 hospital campuses in Los Angeles County have not yet met the mandate that all acute-care facilities must be deemed capable of remaining fully operational following a major earthquake by 2030, according to the Los Angeles Business Journal. 

Five things to know:

1. The mandate is part of a California bill passed in 1994 after an earthquake resulted in eight hospitals having to evacuate patients because of lack of power, water or other key components. 

2. California Department of Health Care Access and Information data shows that 176 out of about 700 acute-care buildings on the county's hospital campuses would need seismic upgrades to remain operational following a quake.

3. A 2016 study from Rand Corp. found the cost of bringing the 73 campuses into compliance with the mandate is projected to cost between $8.7 billion — assuming all of the acute-care buildings need to be retrofitted only — and $39.5 billion if all acute-care buildings were to be replaced.

4. The COVID-19 pandemic worsened financial situations for hospitals. In 2021, 53 of the 93 hospital campuses had operating losses, according to Kaufman Hall. 

5. Due to the challenges of the pandemic, the California Hospital Association is seeking to have the deadline pushed back. Buildings with emergency rooms and trauma centers would remain under the 2030 deadline, but all other acute-care facilities would have the deadline moved to 2037. 

https://www.zerohedge.com/markets/los-angeles-hospitals-brace-billions-earthquake-upgrades-2030