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Posted On: 10/26/2020 12:11:07 PM
Post# of 148908
Leronlimab Shows Early, but Promising Clinical Responses in First Two Patients Recovering from Stroke
Download as PDFOctober 26, 2020 6:00am EDT
VANCOUVER, Washington, Oct. 26, 2020 (GLOBE NEWSWIRE) -- CytoDyn Inc. (OTC.QB: CYDY), (“CytoDyn” or the “Company" , a late-stage biotechnology company developing leronlimab (PRO 140), a CCR5 antagonist with the potential for multiple therapeutic indications, announced today two patients have demonstrated noticeable signs of improvement following treatment with leronlimab (PRO 140) in helping their recovery from stroke.
The most recent stroke patient, a physician in Mississippi, requested leronlimab, which was administered to him under Mississippi’s recently expanded “Right to Try” statute. The physician’s son, commenting on his father, stated, “He is doing good. Yesterday, he received his second treatment. He said he has been feeling better, and he thinks it is working. He said parts of his body and face that have been numb are starting to change/wake up.”
Scott A. Kelly, M.D., CytoDyn Chairman of the Board, Chief Medical Officer and Head of Business Development, commented, “We are encouraged by leronlimab’s potential to help patients recover from stroke and traumatic brain injury. Independent research has concluded CCR5 is upregulated in neurons after stroke, blocking CCR5 induces motor recovery after stroke, and CCR5 antagonism may enhance learning, memory, and plasticity. CCR5 is rapidly becoming an important target for neural repair in stroke and traumatic brain injury. Our recent data that leronlimab crosses the blood-brain barrier with 70-75% receptor occupancy of the CCR5 receptors in the brain (Macaque model) is encouraging for the potential to enhance recovery in stroke and traumatic brain injury and explore a variety of central nervous system pathology.”
A second stroke patient was receiving treatment with leronlimab as part of her therapy for breast cancer. The treating physician noted her partial paralysis was mitigated relatively quickly, which may have been causally related to the posited role of CCR5 in stroke.
Nader Pourhassan, Ph.D., President and Chief Executive Officer of CytoDyn, stated, “Leronlimab’s ability to cross the blood-brain barrier potentially presents numerous opportunities for the treatment of patients suffering from diseases related to the central nervous system. Therefore, we are accelerating the filing of a Phase 2 protocol to evaluate leronlimab’s potential as a therapeutic for stroke recovery. We continue to focus our energies on our most important task of enrolling more patients in our severe-to-critical COVID-19 Phase 3 trial as quickly as possible. In addition to moving forward rapidly to complete our Biologics License Application for HIV, in multiple countries, our extensive plan includes filing a protocol and IND for Phase 2 clinical trials for both stroke and Long Haulers COVID-19 indications. We continue to strongly believe leronlimab has the potential to provide therapeutic benefit to patients suffering from a variety of diseases, and this incredible prospect drives our management team every day. CytoDyn is committed to fulfilling this obligation to patients of the world.”
About Leronlimab’s Ability to Cross Blood-Brain Barrier
The blood-brain barrier (BBB) mediates the communication between the periphery and the central nervous system (CNS). The BBB separates the circulation from the brain. It is a highly selective permeable border of endothelial cells and acts as a metabolic barrier, transport interface, and secretory body. The BBB prevents solutes in the circulating blood from non-selectively crossing into the central nervous system's extracellular fluid where neurons reside. The blood vessels that vascularize the central nervous system (CNS) possess unique functions. The BBB allows precise control of CNS homeostasis. It serves to allow for proper neuronal function and also protects the neural tissue from toxins and pathogens. Alterations of these barrier properties are an important component of central nervous system diseases.
An important recent discovery of leronlimab is the ability to cross the blood-brain barrier to treat diseases where CCR5 antagonism may benefit the central nervous system. In a study of HIV in macaques, it was determined that the administration of leronlimab resulted in approximately 70-75% CCR5 receptor occupancy in the frontal lobes, parietal lobes, and cerebellum. Independent research on CCR5 antagonism in central nervous system pathology has shown promise in various disease processes, including multiple sclerosis, Parkinson's disease, CNS tumors, traumatic brain injury, and stroke recovery.
About Coronavirus Disease 2019
CytoDyn completed its Phase 2 clinical trial (CD10) for COVID-19, a double-blinded, randomized clinical trial for mild-to-moderate patients in the U.S. which produced statistically significant results for NEWS2. Enrollment continues in its Phase 2b/3 randomized clinical trial for the severe-to-critically ill COVID-19 population in several hospitals throughout the U.S.; an interim analysis on the first 195 patients was conducted mid-October.
CytoDyn is currently conducting its Phase 2b/3 COVID-19 trial for patients with severe-to-critical indications in numerous hospitals and clinics across the U.S., which are identified on the Company’s website under the “Clinical Trial Enrollment” section of the homepage.
About Leronlimab (PRO 140)
The FDA has granted a Fast Track designation to CytoDyn for two potential indications of leronlimab for critical illnesses. The first indication is a combination therapy with HAART for HIV-infected patients and the second is for metastatic triple-negative breast cancer. Leronlimab is an investigational humanized IgG4 mAb that blocks CCR5, a cellular receptor that is important in HIV infection, tumor metastases, and other diseases, including NASH. Leronlimab has completed nine clinical trials in over 800 people and met its primary endpoints in a pivotal Phase 3 trial (leronlimab in combination with standard antiretroviral therapies in HIV-infected treatment-experienced patients).
In the setting of HIV/AIDS, leronlimab is a viral-entry inhibitor; it masks CCR5, thus protecting healthy T cells from viral infection by blocking the predominant HIV (R5) subtype from entering those cells. Leronlimab has been the subject of nine clinical trials, each of which demonstrated that leronlimab could significantly reduce or control HIV viral load in humans. The leronlimab antibody appears to be a powerful antiviral agent leading to potentially fewer side effects and less frequent dosing requirements compared with daily drug therapies currently in use.
In the setting of cancer, research has shown that CCR5 may play a role in tumor invasion, metastases, and tumor microenvironment control. Increased CCR5 expression is an indicator of disease status in several cancers. Published studies have shown that blocking CCR5 can reduce tumor metastases in laboratory and animal models of aggressive breast and prostate cancer. Leronlimab reduced human breast cancer metastasis by more than 98% in a murine xenograft model. CytoDyn is, therefore, conducting a Phase 1b/2 human clinical trial in metastatic triple-negative breast cancer and was granted Fast Track designation in May 2019.
The CCR5 receptor appears to play a central role in modulating immune cell trafficking to sites of inflammation. It may be crucial in the development of acute graft-versus-host disease (GvHD) and other inflammatory conditions. Clinical studies by others further support the concept that blocking CCR5 using a chemical inhibitor can reduce the clinical impact of acute GvHD without significantly affecting the engraftment of transplanted bone marrow stem cells. CytoDyn is currently conducting a Phase 2 clinical study with leronlimab to support further the concept that the CCR5 receptor on engrafted cells is critical for the development of acute GvHD, blocking the CCR5 receptor from recognizing specific immune signaling molecules is a viable approach to mitigating acute GvHD. The FDA has granted orphan drug designation to leronlimab for the prevention of GvHD.
https://www.cytodyn.com/investors/news-events...sponses-in
Download as PDFOctober 26, 2020 6:00am EDT
VANCOUVER, Washington, Oct. 26, 2020 (GLOBE NEWSWIRE) -- CytoDyn Inc. (OTC.QB: CYDY), (“CytoDyn” or the “Company" , a late-stage biotechnology company developing leronlimab (PRO 140), a CCR5 antagonist with the potential for multiple therapeutic indications, announced today two patients have demonstrated noticeable signs of improvement following treatment with leronlimab (PRO 140) in helping their recovery from stroke.
The most recent stroke patient, a physician in Mississippi, requested leronlimab, which was administered to him under Mississippi’s recently expanded “Right to Try” statute. The physician’s son, commenting on his father, stated, “He is doing good. Yesterday, he received his second treatment. He said he has been feeling better, and he thinks it is working. He said parts of his body and face that have been numb are starting to change/wake up.”
Scott A. Kelly, M.D., CytoDyn Chairman of the Board, Chief Medical Officer and Head of Business Development, commented, “We are encouraged by leronlimab’s potential to help patients recover from stroke and traumatic brain injury. Independent research has concluded CCR5 is upregulated in neurons after stroke, blocking CCR5 induces motor recovery after stroke, and CCR5 antagonism may enhance learning, memory, and plasticity. CCR5 is rapidly becoming an important target for neural repair in stroke and traumatic brain injury. Our recent data that leronlimab crosses the blood-brain barrier with 70-75% receptor occupancy of the CCR5 receptors in the brain (Macaque model) is encouraging for the potential to enhance recovery in stroke and traumatic brain injury and explore a variety of central nervous system pathology.”
A second stroke patient was receiving treatment with leronlimab as part of her therapy for breast cancer. The treating physician noted her partial paralysis was mitigated relatively quickly, which may have been causally related to the posited role of CCR5 in stroke.
Nader Pourhassan, Ph.D., President and Chief Executive Officer of CytoDyn, stated, “Leronlimab’s ability to cross the blood-brain barrier potentially presents numerous opportunities for the treatment of patients suffering from diseases related to the central nervous system. Therefore, we are accelerating the filing of a Phase 2 protocol to evaluate leronlimab’s potential as a therapeutic for stroke recovery. We continue to focus our energies on our most important task of enrolling more patients in our severe-to-critical COVID-19 Phase 3 trial as quickly as possible. In addition to moving forward rapidly to complete our Biologics License Application for HIV, in multiple countries, our extensive plan includes filing a protocol and IND for Phase 2 clinical trials for both stroke and Long Haulers COVID-19 indications. We continue to strongly believe leronlimab has the potential to provide therapeutic benefit to patients suffering from a variety of diseases, and this incredible prospect drives our management team every day. CytoDyn is committed to fulfilling this obligation to patients of the world.”
About Leronlimab’s Ability to Cross Blood-Brain Barrier
The blood-brain barrier (BBB) mediates the communication between the periphery and the central nervous system (CNS). The BBB separates the circulation from the brain. It is a highly selective permeable border of endothelial cells and acts as a metabolic barrier, transport interface, and secretory body. The BBB prevents solutes in the circulating blood from non-selectively crossing into the central nervous system's extracellular fluid where neurons reside. The blood vessels that vascularize the central nervous system (CNS) possess unique functions. The BBB allows precise control of CNS homeostasis. It serves to allow for proper neuronal function and also protects the neural tissue from toxins and pathogens. Alterations of these barrier properties are an important component of central nervous system diseases.
An important recent discovery of leronlimab is the ability to cross the blood-brain barrier to treat diseases where CCR5 antagonism may benefit the central nervous system. In a study of HIV in macaques, it was determined that the administration of leronlimab resulted in approximately 70-75% CCR5 receptor occupancy in the frontal lobes, parietal lobes, and cerebellum. Independent research on CCR5 antagonism in central nervous system pathology has shown promise in various disease processes, including multiple sclerosis, Parkinson's disease, CNS tumors, traumatic brain injury, and stroke recovery.
About Coronavirus Disease 2019
CytoDyn completed its Phase 2 clinical trial (CD10) for COVID-19, a double-blinded, randomized clinical trial for mild-to-moderate patients in the U.S. which produced statistically significant results for NEWS2. Enrollment continues in its Phase 2b/3 randomized clinical trial for the severe-to-critically ill COVID-19 population in several hospitals throughout the U.S.; an interim analysis on the first 195 patients was conducted mid-October.
CytoDyn is currently conducting its Phase 2b/3 COVID-19 trial for patients with severe-to-critical indications in numerous hospitals and clinics across the U.S., which are identified on the Company’s website under the “Clinical Trial Enrollment” section of the homepage.
About Leronlimab (PRO 140)
The FDA has granted a Fast Track designation to CytoDyn for two potential indications of leronlimab for critical illnesses. The first indication is a combination therapy with HAART for HIV-infected patients and the second is for metastatic triple-negative breast cancer. Leronlimab is an investigational humanized IgG4 mAb that blocks CCR5, a cellular receptor that is important in HIV infection, tumor metastases, and other diseases, including NASH. Leronlimab has completed nine clinical trials in over 800 people and met its primary endpoints in a pivotal Phase 3 trial (leronlimab in combination with standard antiretroviral therapies in HIV-infected treatment-experienced patients).
In the setting of HIV/AIDS, leronlimab is a viral-entry inhibitor; it masks CCR5, thus protecting healthy T cells from viral infection by blocking the predominant HIV (R5) subtype from entering those cells. Leronlimab has been the subject of nine clinical trials, each of which demonstrated that leronlimab could significantly reduce or control HIV viral load in humans. The leronlimab antibody appears to be a powerful antiviral agent leading to potentially fewer side effects and less frequent dosing requirements compared with daily drug therapies currently in use.
In the setting of cancer, research has shown that CCR5 may play a role in tumor invasion, metastases, and tumor microenvironment control. Increased CCR5 expression is an indicator of disease status in several cancers. Published studies have shown that blocking CCR5 can reduce tumor metastases in laboratory and animal models of aggressive breast and prostate cancer. Leronlimab reduced human breast cancer metastasis by more than 98% in a murine xenograft model. CytoDyn is, therefore, conducting a Phase 1b/2 human clinical trial in metastatic triple-negative breast cancer and was granted Fast Track designation in May 2019.
The CCR5 receptor appears to play a central role in modulating immune cell trafficking to sites of inflammation. It may be crucial in the development of acute graft-versus-host disease (GvHD) and other inflammatory conditions. Clinical studies by others further support the concept that blocking CCR5 using a chemical inhibitor can reduce the clinical impact of acute GvHD without significantly affecting the engraftment of transplanted bone marrow stem cells. CytoDyn is currently conducting a Phase 2 clinical study with leronlimab to support further the concept that the CCR5 receptor on engrafted cells is critical for the development of acute GvHD, blocking the CCR5 receptor from recognizing specific immune signaling molecules is a viable approach to mitigating acute GvHD. The FDA has granted orphan drug designation to leronlimab for the prevention of GvHD.
https://www.cytodyn.com/investors/news-events...sponses-in
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