Tuesday, November 30, 2021
Invega Hafyera (paliperidone palmitate) Extended-Release Injectable Suspension for schizophrenia
Monday, November 29, 2021
FDA Approves Welireg (belzutifan) for the Treatment of Patients With Certain Types of Von Hippel-Lindau (VHL) Disease-Associated Tumors
Welireg is the first HIF-2α inhibitor therapy approved in the U.S. As an inhibitor of HIF-2α, Welireg reduces transcription and expression of HIF-2α target genes associated with cellular proliferation, angiogenesis and tumor growth.
The Welireg label contains a boxed warning that exposure to Welireg during pregnancy can cause embryo-fetal harm. Verify pregnancy status prior to the initiation of Welireg. Advise patients of these risks and the need for effective non-hormonal contraception. Welireg can render some hormonal contraceptives ineffective. Welireg can cause severe anemia that can require a blood transfusion. Monitor for anemia before initiation of Welireg and periodically throughout treatment. Welireg can cause severe hypoxia that may require discontinuation, supplemental oxygen, or hospitalization. Monitor oxygen saturation before initiation of and periodically throughout treatment with Welireg. For more information, see "Selected Safety Information" below.
“VHL disease is a rare and serious condition. Until today, there were no systemic therapies approved to help treat patients diagnosed with certain types of VHL-associated tumors,” said Dr. Eric Jonasch, principal investigator of Study 004 and professor, Department of Genitourinary Medical Oncology, Division of Cancer Medicine, The University of Texas MD Anderson Cancer Center. “The approval of Welireg, which is based on data showing an overall response rate across three different types of VHL-associated tumors, addresses this significant unmet need by introducing a new option for physicians and their patients impacted by this disease.”
“Welireg is the first and only approved systemic therapy for patients with certain types of VHL-associated tumors, representing an important new treatment option for patients affected by this rare condition,” said Dr. Scot Ebbinghaus, vice president, clinical research, Merck Research Laboratories. “Today’s approval of Welireg is a significant milestone and is a testament to Merck’s commitment to bring forward innovative new treatment options for more patients.”
“The approval of a non-surgical treatment option is meaningful for helping patients with certain types of VHL-associated tumors,” said Dr. Ramaprasad Srinivasan, head, Molecular Cancer Therapeutics Section, Urologic Oncology Branch, National Cancer Institute (NCI), and principal investigator on the Cooperative Research and Development Agreement (CRADA) under which the NCI served as a site in Study 004. “In Study 004, nearly half of all patients with VHL-associated renal cell carcinoma, as well as the majority of patients with VHL-associated central nervous system hemangioblastomas or pancreatic neuroendocrine tumors, who were treated with Welireg experienced a reduction of their respective tumor size. The FDA’s approval of Welireg marks an important step forward by introducing a systemic therapy that has the potential to improve the current treatment paradigm for patients with certain types of VHL-associated tumors.”
Monday, November 15, 2021
FDA Approves Voxzogo (vosoritide) to Increase Linear Growth in Children with Achondroplasia
BioMarin Pharmaceutical Inc. (NASDAQ: BMRN) announced the U.S. Food and Drug Administration (FDA) approval of VOXZOGO™ (vosoritide) for Injection, indicated to increase linear growth in pediatric patients with achondroplasia five years of age and older with open epiphyses (growth plates). This indication is approved under accelerated approval based on an improvement in annualized growth velocity (AGV). Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory studies. To fulfill this post-marketing requirement, BioMarin intends to use the ongoing open-label extension studies compared to available natural history.
Voxzogo is the first FDA approved treatment for children with achondroplasia. In patients with achondroplasia, endochondral bone growth, an essential process by which bone tissue is created, is negatively regulated due to a gain of function mutation in fibroblast growth factor receptor 3 gene (FGFR3). Voxzogo, a C-type natriuretic peptide (CNP) analog, represents a new class of therapy, which acts as a positive regulator of the signaling pathway downstream of FGFR3 to promote endochondral bone growth.
"Voxzogo is a medical first that is rooted in BioMarin's focus on molecular genetics and targets the underlying cause of the condition. More than a decade of scientific research underpins the medical advance that Voxzogo represents. We thank the FDA for recognizing its value as the first therapeutic treatment option for children with achondroplasia," said Jean-Jacques Bienaimé, Chairman and Chief Executive Officer of BioMarin. "We extend our gratitude to the community, clinical investigators and the children and their families, who participated and continue to participate in our comprehensive clinical research program as we continue to investigate the full potential of vosoritide."
"Achondroplasia is a lifelong genetic condition resulting from the disordered skeletal architecture caused by impaired endochondral bone growth throughout childhood," said Lynda Polgreen, M.D., an investigator in clinical trials for Voxzogo and an Investigator at The Lundquist Institute at Harbor-UCLA Associate Professor at David Geffen School of Medicine – UCLA. "This approval is an important milestone representing the first time that physicians will be able to offer a therapy targeted at the root cause of the condition for families of children with achondroplasia aged five and older."
"We applaud the FDA for recognizing the urgent unmet medical need for this progressive condition. As a parent of a child with achondroplasia, I see the availability of treatments that impact bone growth as an important step forward," said Amer Haider Co-Founder of Growing Stronger, an organization with a mission to improve the quality of medical care for little people through supporting research. The organization raises nonprofit donations that are granted to researchers focused on dwarfism.
Mr. Haider added, "BioMarin continues to support the achondroplasia community and has a long track record of advancing the standard of care in rare genetic conditions."
With this approval, the FDA also issued a Rare Pediatric Disease Priority Review Voucher (PRV), which confers priority review to a subsequent drug application that would not otherwise qualify for priority review. The rare pediatric disease PRV program is designed to encourage development of new drugs and biologics for the prevention or treatment of rare pediatric diseases.
The approval was based on the outcomes of a global randomized, double-blind, placebo-controlled Phase 3 study evaluating the efficacy and safety of Voxzogo and the open-label extension of this Phase 3 study. The study enrolled 121 children aged 5 to 14.9 with achondroplasia. Baseline mean AGV in the placebo and Voxzogo groups was 4.06 cm/year and 4.26 cm/year, respectively. At week 52, the change from baseline in AGV was -0.17 cm/year for the placebo treated patients and 1.40 cm/year for the Voxzogo treated patients, resulting in a statistically significant improvement in AGV of 1.57 cm/year in favor of Voxzogo. After the 52 week double blind, placebo–controlled, phase 3 study, 58 subjects initially randomized to Voxzogo enrolled into an open–label extension. Among the subjects who had two years of follow–up since randomization, the improvement in AGV was maintained.
FDA Approves Vuity (pilocarpine HCI ophthalmic solution) to Treat Presbyopia (Age-Related Blurry Near Vision)....
Allergan, an AbbVie (NYSE: ABBV) company, announced the U.S. Food and Drug Administration (FDA) approval of Vuity (pilocarpine HCl ophthalmic solution) 1.25% for the treatment of presbyopia, commonly known as age-related blurry near vision, in adults. Vuity is the first and only FDA-approved eye drop to treat this common and progressive eye condition that affects 128 million Americans, nearly half of the U.S. adult population.
"Most adults cope with presbyopia, or difficulty with near vision, as we age. Beginning around the age of 40, many find themselves using reading glasses, holding text further away, or even increasing the font size and lighting on screens to try to see more clearly," said Michael Severino, M.D., vice chairman and president, AbbVie. "We are proud to offer Vuity as a first-of-its-kind once-daily eye drop that we believe will change the way people and their eye doctors approach presbyopia. The FDA approval of Vuity exemplifies our continued pursuit of innovative new treatments that push the boundaries of what's possible in eye care."
Vuity is a daily, prescription eye drop that works in as early as 15 minutes and lasts up to 6 hours, as measured on day 30, to improve near and intermediate vision without impacting distance vision. Specifically designed for presbyopia, Vuity is an optimized formulation of pilocarpine, an established eye care therapeutic, delivered with pHast™ technology. The proprietary pHast™ technology allows Vuity to rapidly adjust to the physiologic pH of the tear film. Vuity uses the eye's own ability to reduce pupil size, improving near vision without affecting distance vision.
"As we age, the lenses of our eyes become less flexible, making it more difficult to focus on things up close. Vuity offers a novel, safe, well-tolerated and effective alternative to current options for managing age-related blurry near vision," said George O. Waring IV, M.D., FACS, medical director, Waring Vision Institute, South Carolina, and GEMINI 1 and GEMINI 2 principal study investigator. "I am particularly encouraged by the rapid onset of action and duration of efficacy for Vuity to improve near and intermediate vision without impacting distance vision with one drop daily, particularly for those with mild to moderate presbyopia."
The FDA approval of Vuity is based on data from two pivotal phase 3 clinical studies, GEMINI 1 and GEMINI 2, which evaluated the efficacy, safety and tolerability of Vuity for the treatment of presbyopia. In both studies, Vuity met the primary endpoint, reaching statistical significance in improvement in near vision in low light (mesopic) conditions without a loss of distance vision versus the vehicle (placebo) on day 30 at hour 3. Additionally, improvement was seen as early as 15 minutes and lasted through 6 hours. There were no serious adverse events observed in participants receiving VUITY in either the GEMINI 1 or GEMINI 2 study. The most common adverse events occurring at a frequency of >5% were headache and eye redness.
Highlights from the Phase 3 GEMINI 1 & GEMINI 2 Clinical Studies
- A total of 750 participants aged 40 to 55 years old with presbyopia were randomized in the two studies in a one-to-one ratio of placebo to Vuity.
- Participants were instructed to administer one drop of Vuity or placebo once daily in each eye.
- Both studies met their primary endpoints with a statistically significant proportion of participants treated with Vuity gaining three lines (the ability to read three additional lines on a reading chart) or more in mesopic (in low light), high contrast, binocular Distance Corrected Near Visual Acuity (DCNVA), without losing more than 1 line (5 letters) of Corrected Distance Visual Acuity (CDVA) at day 30, hour 3, versus placebo.
- There were no serious adverse events observed in any participants treated with Vuity in either clinical study. The most common treatment emergent non-serious adverse events occurring at a frequency of >5% in participants treated with Vuity were headache and eye redness.
Tuesday, November 9, 2021
FDA Approves Seglentis (celecoxib and tramadol hydrochloride) for the Management of Acute Pain
In continuation of my update on celecoxib and tramadol
The U.S. Food and Drug Administration (FDA) has approved Seglentis (celecoxib and tramadol hydrochloride), a proprietary product developed by Esteve Pharmaceuticals' R&D team. It is an innovative first-in-class product comprised of a co-crystal form of celecoxib (an anti-inflammatory) and tramadol (an analgesic) for the treatment of acute pain in adults. This is Esteve's first proprietary research product to enter the United States market.
In words of Dr. Carlos Plata-Salamán, Chief Scientific Officer and Chief Medical Officer of Esteve "This innovation is the result of applying a crystallization technology to improve the physicochemical properties and pharmacokinetic characteristics of its active pharmaceutical ingredients.1,2,4,7,9 The FDA approval means that clinicians and adult patients in the U.S. now have a new treatment option for acute pain management."
Seglentis is the trade name for tablets that contain a co-crystal7 composed of celecoxib and tramadol hydrochloride. It is a new analgesic designed for acute pain management in a multimodal treatment approach3,5,6 targeting four complementary pain relief mechanisms.5,6 It offers a new treatment option for acute pain management aligned with the multimodal analgesia now considered standard of care.
FDA Approves Zimhi (naloxone hydrochloride) Injection for the Treatment of Opioid Overdose
In continuation of my update on naloxone hydrochloride, Adamis Pharmaceuticals Corporation (Nasdaq: ADMP) announced the U.S. Food and Drug Administration (FDA) approval of Adamis’ Zimhi™ (naloxone HCL Injection, USP) 5 mg/0.5 mL product. Zimhi is a high-dose naloxone injection product FDA-approved for use in the treatment of opioid overdose.
Naloxone is an opioid antagonist and is generally considered the drug of choice for immediate administration for opioid overdose. It works by blocking or reversing the effects of the opioid, including extreme drowsiness, slowed breathing, or loss of consciousness. Common opioids include morphine, heroin, tramadol, oxycodone, hydrocodone and fentanyl.
According to statistics published by the Centers for Disease Control and Prevention (CDC), drug overdoses resulted in approximately 96,779 deaths in the United States during the 12-month period ending March 2021, which was a 29% increase over the prior 12-month period. Drug overdoses are now the leading cause of death for Americans under age 50, with more powerful synthetic opioids, like fentanyl and its analogues, responsible for the largest number of those deaths.
Dr. Jeffrey Galinkin, an anesthesiologist, and former member of the FDA Advisory Committee for Anesthetics, Analgesics and Addiction Products, commented, “I am pleased to see this much needed high dose naloxone product will become part of the treatment tool kit as a countermeasure to the continued surge in fentanyl related deaths. The higher intramuscular doses of naloxone in Zimhi should result in more rapid and higher levels of naloxone in the systemic circulation, which in turn, should result in more successful resuscitations.”
Dr. Dennis J. Carlo, President and CEO of Adamis, stated, “We are very excited by this approval and are working with our commercial partner, US WorldMeds, to make this much-needed, lifesaving product readily available to the market. Zimhi provides the highest systemic levels of naloxone compared to any of the nasal or intramuscular products currently available.”
P. Breckinridge Jones, Sr., CEO of US WorldMeds, added, “We are pleased with the approval and now look forward to commercially marketing Zimhi in the United States. US WorldMeds has a proven track-record of successfully commercializing pharmaceutical products and have a First-in-Class and only FDA-approved product, LUCEMYRA® (lofexidine), for the treatment of withdrawal symptoms associated with abrupt opioid discontinuation. We are confident we can leverage our existing commercial infrastructure and presence in the opioid dependence market to speed the uptake of Zimhi and combat the growing opioid crisis. We are preparing for the full commercial launch of ZIMHI which is planned for the first quarter of 2022.”\
Thursday, July 22, 2021
Progress towards new treatments for tuberculosis
Tuberculosis still represents an enormous global disease burden and is one of the top 10 causes of death worldwide.
Led by WEHI's Dr. Michael Stutz and Professor Marc Pellegrini and published in Immunity, the study uncovered how cells infected with tuberculosis bacteria can die, and that using new medicines to enhance particular forms of cell death decreased the severity of the disease in a preclinical model.
Fighting antibiotic resistance
Tuberculosis is caused by bacteria that infect the lungs, spreading from person to person through the air. A challenge in the fight against tuberculosis is that the bacteria that cause the disease have developed resistance to most antibiotic treatments, leading to a need for new treatment approaches.
Tuberculosis bacteria grow within immune cells in the lungs. One of the ways that cells protect against these 'intracellular' pathogens is to undergo a form of cell death called apoptosis—destroying the cell as well as the microbes within it.
Using preclinical models, researchers sequentially deleted key apoptosis effectors, to demonstrate their roles in controlling tuberculosis infections. This demonstrated that a proportion of tuberculosis-infected cells could die by apoptosis—opening up new opportunities for controlling the disease.
Using host-directed therapies to reduce disease burden
Dr. Stutz said researchers then tested new drugs that force cells to die. This revealed that a drug-like compound that inhibits cell death-regulatory proteins called IAPs could promote death of the infected cells.
"When we treated our infection models with this compound, we were able to significantly reduce the amount of tuberculosis disease," he said.
"The longer the treatment was used, the greater the reduction of disease."
The research team was able to replicate these results using various different IAP inhibitors.
"Excitingly, many of these compounds are already in clinical trials for other types of diseases and have proven to be safe and well-tolerated by patients," Dr. Stutz said.
"We predict that if these compounds were progressed for treating tuberculosis, they would be most effective if used alongside existing antibiotic treatments."
Opening the door to new treatment methods
Professor Marc Pellegrini said until now, antibiotics were the only treatment for tuberculosis, which were limited in their application due to increasing antibiotic resistance.
"Unlike antibiotics, which directly kill bacteria, IAP inhibitors kill the cells that the tuberculosis bacteria need to survive," he said.
"The beauty of using a host-directed therapy is that it doesn't directly target the microbe, it targets a host process. By targeting the host rather than the microbe, the chances of resistance developing are incredibly low."
The team hope the research will lead to better treatments for tuberculosis.
"This research increases our understanding of the types of immune responses that are beneficial to us, and this is an important step towards new treatments for tuberculosis, very few of which have been developed in the last 40 years," Dr. Stutz said.
"We have demonstrated that host-directed therapies are viable for infections such as tuberculosis, which is particularly important in the era of extensive antibiotic resistance."
https://www.sciencedirect.com/science/article/abs/pii/S1074761321002533?via%3Dihub
Wednesday, July 21, 2021
Oral Transglutaminase 2 Inhibitor Beneficial in Celiac Disease
For patients with celiac disease, treatment with a selective oral transglutaminase 2 inhibitor (ZED1227) attenuates gluten-induced duodenal mucosal damage, according to a study published in the July 1 issue of the New England Journal of Medicine.
The researchers found that at all three dose levels, ZED1227 treatment attenuated gluten-induced duodenal mucosal injury. From baseline to week six, the mean ratio of villus height to crypt depth estimated difference from placebo was 0.44, 0.49, and 0.48 in the 10-, 50-, and 100-mg groups, respectively. For the change in intraepithelial lymphocyte density, the estimated differences from placebo were −2.7, −4.2, and −9.6 cells per 100 epithelial cells, respectively, for 10-, 50-, and 100-mg ZED1227. Symptom and quality-of-life scores may have been improved with use of the 100-mg dose.
"Although this trial is very encouraging, whether treatment with ZED1227, and more generally transglutaminase 2 inhibition, in patients with celiac disease will be efficient in real life and during long-term gluten exposure remains to be determined," writes the author of an accompanying editorial.
Tuesday, July 20, 2021
Bayer Wins Approval for CKD Drug ......
The U.S. Food and Drug Administration (FDA) greenlit Bayer’s Kerendia (finerenone) to reduce the progression of chronic kidney disease associated with type 2 diabetes. The first nonsteroidal mineralocorticoid receptor antagonist (MRA) is approved for adults with chronic kidney disease associated with type 2 diabetes.
Kerendia was explicitly approved to reduce the risk of kidney failure, heart attack, heart failure hospitalization, and cardiovascular death in adult patients with chronic kidney disease associated with type 2 diabetes. Although there are guideline directed therapies for CKD, many patients with chronic kidney disease associated with type 2 diabetes are at risk for disease progression and cardiovascular events.
Amit Sharma, Vice President of Cardiovascular and Renal at Bayer, expressed excitement at bringing this new treatment for patients with CKD associated with type 2 diabetes.
Kerendia acts by blocking the overactivation of the mineralocorticoid receptor, which contributes to fibrosis and inflammation. Those can then contribute to permanent structural kidney damage.
“Chronic kidney disease associated with type 2 diabetes can have such a debilitating impact on patients’ lives. Unfortunately, this disease is far reaching, as up to 40 percent of all patients with type 2 diabetes develop chronic kidney disease,” Kevin Longino, chief executive officer of the National Kidney Foundation and a kidney transplant patient, said in a statement. “It is important for physicians and patients to have new treatment options that can slow chronic kidney disease progression.”
The FDA approved Kerendia based on data from the Phase III FIDELIO-DKD study. The trial demonstrated positive kidney and cardiovascular outcomes in patients with CKD associated with type 2 diabetes.
Trial findings were published in the New England Journal of Medicine in 2020. Type 2 diabetes is the leading cause of end-stage kidney disease, when patients may need dialysis or a kidney transplant to stay alive. It is estimated that about 40% of all type 2 diabetes patients will develop chronic kidney disease.
George Bakris, the lead study investigator for the FIDELIO-DKD study, said the patient populations included in the Phase IIII study were at risk of disease progression despite being on the current standard of care treatment to control blood pressure and blood glucose. The approval of Kerendia provides physicians with a treatment option that can give kidney protection, he said.
Bayer expects Kerendia to be available for patients by the end of the month. The company is seeking approval in Europe. Kerendia was approved under both Fast Track and Priority Review designations.
Wednesday, July 14, 2021
Drug could be promising new option against eczema
In continuation of my update on Upadacitinib
A pill called upadacitinib, already approved for treating rheumatoid arthritis, might also ease another common immunological condition—eczema.
In two phase 3 clinical trials, patients with moderate to severe eczema showed rapid and significant improvements after taking the drug, said researchers at Mount Sinai in New York City.
The clinical trials were funded by the dug's maker, AbbVie Inc., and included nearly 1,700 patients with the inflammatory skin condition.
"The results of these trials ... were so incredible that by week 16, most patients with moderate to severe atopic dermatitis [eczema] either had a 90% disease clearance, or even 100% disease clearance," study first author Dr. Emma Guttman-Yassky said in a Mount Sinai news release. She's professor and chair of the department of dermatology at Mount Sinai's Icahn School of Medicine, in New York City.
"We achieved extremely high clearance rates that are bringing us closer to the amazing clearance rates that we see in psoriasis," Guttman-Yassky noted.
According to the National Eczema Association, "people with eczema tend to have an over-reactive immune system that when triggered by a substance outside or inside the body, responds by producing inflammation. It is this inflammation that causes the red, itchy and painful skin symptoms common to most types of eczema."
Eczema affects more that 31 million American adults and between 10 to 20% of children, the study authors noted.
The two new clinical trials involved a total of almost 1,700 patients and took place between 2018 and 2020.
Besides the rapid disease clearance noted in patients, "the itch improvements already started to be significant within days from the beginning of the trials, and the maximum clinical efficacy was obtained early, at week 4, and maintained to week 16," Guttman-Yassky said.
The drug was well tolerated by patients who received the two highest doses of the drug—15 milligrams and 30 milligrams—and no significant safety risks were seen, she added.
Upadacitinib is already approved and marketed for use against rheumatoid arthritis under the brand name Rinvoq. It works by blocking what are known as multiple cytokine-signaling pathways—parts of the immune system that can malfunction and cause eczema.
According to Guttman-Yassky, other eczema therapies exist, but most come with certain drawbacks.
While injectable biologic drugs are highly successful in treating eczema patients who don't respond to or can't use topical creams, their use cannot be stopped and restarted at will, because the potential creation of anti-drug antibodies will shorten the half-life of the drugs, she explained.
However, "patients were able to start and restart [upadacitinib] at any time, allowing for flexibility, which cannot be achieved with biologics," Guttman-Yassky, said. "And, biologics, which are injectable agents that target specific lymphocytes that are 'misbehaving' or are up-regulated in atopic dermatitis, do not suppress the entire immune system as other immunosuppressants tend to do."
Dr. Michele Green is a dermatologist at Lenox Hill Hospital in New York City who wasn't involved in the new study.
She called the findings "important."
Upadacitinib is the first drug in its class "to be effectively used for patients with significant improvement of pruritus [itch] within several days of treatment and clearance of their disease within several weeks," Green noted.
"It is also significant since adolescents were included in this study and I believe an oral treatment is much more appealing to treating adolescents than current injectable biologics," she added.
https://pubchem.ncbi.nlm.nih.gov/compound/Upadacitinib#section=2D-Structure
Monday, June 28, 2021
Drug commonly used as antidepressant helps fight cancer in mice
A new study by UCLA researchers suggests that those drugs, commonly known as MAOIs, might have another health benefit: helping the immune system attack cancer. Their findings are reported in two papers, which are published in the journals Science Immunology and Nature Communications.
"MAOIs had not been linked to the immune system's response to cancer before," said Lili Yang, senior author of the study and a member of the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research at UCLA. "What's especially exciting is that this is a very well-studied and safe class of drug, so repurposing it for cancer isn't as challenging as developing a completely new drug would be."
Recent advances in understanding how the human immune system naturally seeks out and destroys cancer cells, as well as how tumors try to evade that response, has led to new cancer immunotherapies—drugs that boost the immune system's activity to try to fight cancer.
In an effort to develop new cancer immunotherapies, Yang and her colleagues compared immune cells from melanoma tumors in mice to immune cells from cancer-free animals. Immune cells that had infiltrated tumors had much higher activity of a gene called monoamine oxidase A, or MAOA. MAOA's corresponding protein, called MAO-A, controls levels of serotonin and is targeted by MAOI drugs.
"For a long time, people have theorized about the cross-talk between the nervous system and the immune system and the similarities between the two," said Yang, who is also a UCLA associate professor of microbiology, immunology and molecular genetics and a member of the UCLA Jonsson Comprehensive Cancer Center. "So it was exciting to find that MAOA was so active in these tumor-infiltrating immune cells."
Next, the researchers studied mice that didn't produce MAO-A protein in immune cells. The scientists found that those mice were better at controlling the growth of melanoma and colon tumors. They also found that normal mice became more capable of fighting those cancers when treated with MAOIs.
Digging in to the effects of MAO-A on the immune system, the researchers discovered that T cells—the immune cells that target cancer cells for destruction—produce MAO-A when they recognize tumors, which diminishes their ability to fight cancer.
That discovery places MAO-A among a growing list of molecules known as immune checkpoints, which are molecules produced as part of a normal immune response to prevent T cells from overreacting or attacking healthy tissue in the body. Cancer has been known to exploit the activity of other previously identified immune checkpoints to evade attack by the immune system.
In the Science Immunology paper, the scientists report that MAOIs help block the function of MAO-A, which helps T cells overcome the immune checkpoint and more effectively fight the cancer.
But the drugs also have a second role in the immune system, Yang found. Rogue immune cells known as tumor-associated macrophages often help tumors evade the immune system by preventing anti-tumor cells including T cells from mounting an effective attack. High levels of those immunosuppressive tumor-associated macrophages in a tumor have been associated with poorer prognoses for people with some types of cancer.
But the researchers discovered that MAOIs block immunosuppressive tumor-associated macrophages, effectively breaking down one line of defense that tumors have against the human immune system. That finding is reported in the Nature Communications paper.
"It turns out that MAOIs seem to both directly help T cells do their job, and stop tumor-associated macrophages from putting the brakes on T cells," Yang said.
Combining MAOIs with existing immunotherapies
Yang said she suspects that MAOIs may work well in concert with a type of cancer immunotherapies called immune checkpoint blockade therapies, most of which work by targeting immune checkpoint molecules on the surface of immune cells. That's because MAOIs work on MAO-A proteins, which are inside cells and function differently from other known immune checkpoint molecules.
Studies in mice showed that any of three existing MAOIs—phenelzine, clorgyline or mocolobemide—either on their own or in combination with a form of immune checkpoint blockade therapy known as PD-1 blockers, could stop or slow the growth of colon cancer and melanoma.
Although they haven't tested the drugs in humans, the researchers analyzed clinical data from people with melanoma, colon, lung, cervical and pancreatic cancer; they found that people with higher levels of MAOA gene expression in their tumors had, on average, shorter survival times. That suggests that targeting MAOA with MAOIs could potentially help treat a broad range of cancers.
Yang and her collaborators are already planning additional studies to test the effectiveness of MAOIs in boosting human immune cells' response to various cancers.
Yang said MAOIs could potentially act on both the brain and immune cells in patients with cancer, who are up to four times as likely as the general population to experience depression.
"We suspect that repurposing MAOIs for cancer immunotherapy may provide patients with dual antidepressant and antitumor benefits," she said.
The experimental combination therapy in the study was used in preclinical tests only and has not been studied in humans or approved by the Food and Drug Administration as safe and effective for use in humans. The newly identified therapeutic strategy is covered by a patent application filed by the UCLA Technology Development Group on behalf of the Regents of the University of California, with Yang, Xi Wang and Yu-Chen Wang as co-inventors.
Monday, June 14, 2021
Cancer drug shows potential against pseudo SARS-CoV-2 in lab tests
The research, published in a letter to the journal Signal Transduction and Targeted Therapy, shows the potential of an existing FDA-approved drug to help doctors treat the sickest COVID-19 patients.
The labs of Pengda Liu, Ph.D., and Guochun Jiang, Ph.D., both assistant professors in the UNC Department of Biochemistry and Biophysics, conducted this work. Liu is a member of the UNC Lineberger Comprehensive Cancer Center, and Jiang is a member of the UNC HIV Cure Center.
SARS-CoV-2, a novel coronavirus and the causative agent of COVID-19, has caused a global social and economic disruption, and there are still thousands of cases and death each day in the United States and around the world. Treatments to prevent severe illness and death are still needed.
In this research letter, the UNC team reported that a protein called E3 ligase SPOP recognizes and protects the human cell surface receptor ACE2, which is the protein SARS-CoV-2 latches onto in order to gain entry into cells to cause infection. Another protein called CK1 kinase triggers this recognition and protection of ACE2.
The researchers used the cancer drug lenalidomide to inhibit CK1 kinase activity in cell cultures and showed a substantial reduction in ACE2 protein levels in kidney cancer cells. Researchers used SARS-CoV-2 S protein conditioned pseudoviruses in vitro and found lenalidomide treatment reduced the effect of this infection on kidney-derived cells.
"We hope that our identification and tests for the efficacy of inactivating the SPOP/CKI signaling in reducing ACE2 protein expression to attenuate SARS-CoV-2 infection provides a timely investigation into new therapeutic directions to combat COVID-19," Liu said.
A next step could be to use animal models to see if the drug blocks real SARS-CoV-2.
Friday, June 11, 2021
Melatonin shown to protect kidney damage caused by obesity with diabetes
Specifically, in two new studies recently published in the Journal of Clinical Medicine and Pharmaceuticals, researchers have developed an obese and diabetic rodent model and have shown that melatonin protects from kidney damage caused by diabesity.
The scientists have shown that chronic administration of melatonin at doses (10 mg/kg body weight/day) prevents mitochondrial and endoplasmic reticulum disruption, which play a critical role in the development and pathogenesis of kidney cell (nephron) damage, and its progression to renal failure.
Thus, it has been shown that melatonin prevents the impairment of the function and dynamics of cellular mitochondria, decreasing the increased production of oxygen free radicals (responsible for oxidative stress). It also prevents pathological alteration in the function of the endoplasmic reticulum (another cell cytoplasmic organelle), which, in conditions of abnormally high oxidative stress, is related to an increase in programmed cell death (of the nephron) leading to the loss of renal functionality, as a preliminary step to the development of renal failure and the need for hemodialysis or transplantation.
The studies coordinated by the UGR show the efficacy of melatonin in halting the progression of renal damage mediated by mitochondrial damage and excess endoplasmic reticulum stress.
As the lead author of this study, Ahmad Agil, a researcher at the Department of Pharmacology of the UGR, says, "Kidney damage is caused by metabolic complications of obesity, such as diabetes, hypertension, blood lipid disorders or fatty liver disease. Given that the prevalence of these pathologies (collectively recognized as metabolic syndrome) continues to increase, kidney damage and its progression over time to kidney failure has become a health problem that affects millions of people worldwide, with a great socioeconomic cost, requiring hemodialysis facilities and/or kidney transplant services, with the corresponding compatibility studies required."
The importance of the work lies not only in the efficacy of melatonin in counteracting the two proposed mechanisms of renal damage (based on the alteration of mitochondrial function and dynamics and the function of the endoplasmic reticulum (ER)), but they also propose an alternative preventive treatment that would improve this renal function with a well-studied drug with a very high safety profile such as melatonin, which is a drug that in the EU must be prescribed by a doctor and is already administered in the treatment of insomnia.
The new findings have also been associated with an improvement in glomerular filtration rate and renal damage of the nephron, manifested in a decrease in creatinine clearance levels (the best marker of renal function), proteinuria, and in the improvement of renal structure, observed after histopathological study of the kidney.
These results are in line with those previously published by these researchers in the last 10 years, demonstrating that the pharmacological administration of melatonin constitutes another new strategy in the therapeutic approach to diabesity (central obesity and its type 2 diabetes) and its complications (such as hepatic steatosis, hypertension, lipid alteration, etc.).
"Our main challenge is the application of melatonin and other strategies such as intermittent fasting in the field of medicine, especially to address the possibility of a treatment perspective for the aforementioned pathologies (diabesity and its complications) that involve an increase in oxidative stress, and mitochondrial damage and associated meta-inflammation (inflammation of metabolic origin)," Agil says.
According to the results, melatonin could help treat kidney damage, which establishes the need to develop new clinical trials to test its effectiveness in humans. The next step is to investigate how it helps in the maintenance of mitochondrial and endoplasmic reticulum homeostasis, and to a greater extent, if melatonin therapy would allow delaying or stopping progressive renal damage by promoting its chronic pharmacological use in kidney repair and regeneration.