On June 22, 2022 Biomea Fusion, Inc. ("Biomea") (Nasdaq: BMEA), reported that the first patient has been dosed in the MM cohort of COVALENT-101, the company’s Phase I clinical trial evaluating BMF-219, Biomea’s covalent menin inhibitor, in patients with R/R AML, ALL, DLBCL, and MM (Press release, Biomea Fusion, JUN 22, 2022, View Source [SID1234616163]).

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"From the very beginning of our journey, we have been exploring and validating the broad potential of covalently inhibiting the scaffold protein, menin, in a host of liquid and solid tumors. Menin’s broad role in a variety of tumor types is rather striking. Based on the outstanding translational work of our team, we have seen compelling preclinical activity using BMF-219 in MM subtypes, especially those that are driven by MYC, a protein essential to the growth of numerous tumor types," said Steve Morris, MD, Chief Medical Officer of Biomea Fusion.

"Today, we have taken the first step to explore the clinical potential of BMF-219, a single-agent covalent menin inhibitor, in treating relapsed / refractory multiple myeloma patients. This represents the second cancer type, as well as the first cancer type outside of AML, to be studied with BMF-219. We are committed to delivering innovative medicine to patients in need, including those with R/R MM. I am incredibly proud of our team for their dedication as they continue to explore the boundaries of where science is leading us. Our mission is fundamentally driven by the wish to help cure patients of their disease. I would like to thank the entire Biomea team, including our participating clinical sites and wonderful collaborators, for their work quality and brilliance in achieving this very important milestone," said Thomas Butler, CEO, Chairman of the Board and Co-Founder of Biomea.

About COVALENT-101

A Phase I, open-label, multi-center, dose escalation and dose expansion study designed to assess the safety, tolerability, and pharmacokinetics / pharmacodynamics of once daily oral dosing of BMF-219 in patients with r/r acute leukemias —including subpopulations where menin inhibition is expected to provide a therapeutic benefit (e.g., patients with MLL1/KMT2A gene rearrangements or NPM1 mutations). The study has been expanded to include cohorts for patients with R/R multiple myeloma and R/R diffuse large B-cell lymphoma. Additional information about the Phase I clinical trial of BMF-219 can be found at ClinicalTrials.gov using the identifier NCT05153330.

About Multiple Myeloma (MM)

MM is a cancer of plasma cells, which make antibodies (immunoglobulins) and are mainly located in the bone marrow. As cancerous cells proliferate and migrate from the bone marrow, organ damage occurs due to excess immunoglobulins in bones and blood and the general weakening of bones. Approximately 35,000 people in the U.S. are diagnosed with MM each year and the 5-year relative survival rate is ~56% (Source: NCI SEER Data). The need is greatest among patients with relapsed or refractory disease, with overall survival as low as 6 months in some patients. Additionally, it is estimated that more than 60% of MM patients have menin dependent genetic drivers (MYC addicted or driven) and that these drivers are more common in the relapsed or refractory setting.

On June 22, 2022 Bio-Techne Corporation (NASDAQ:TECH), a global life sciences company providing innovative tools and bioactive reagents for the research and clinical diagnostic communities, reported it has reached an agreement to acquire Namocell, Inc (Press release, Bio-Techne, JUN 22, 2022, View Source [SID1234616162]). Bio-Techne anticipates the acquisition to close in the first quarter of its fiscal 2023.

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Founded in 2014 and headquartered in Mountain View, California, Namocell is a leading provider of fast and easy to use single cell sorting and dispensing platforms that are gentle to cells, and preserve cell viability and integrity. Single cell selection and sorting is a critical technology in various workflows in both biotherapeutics and diagnostics, including cell and gene therapy development and commercialization, cell engineering, cell line development, single cell genomics, antibody discovery, synthetic biology, and rare cell isolation.

Historically, researchers relied on flow cytometry sorting methods like FACS (Flourescence-Activated Cell Sorting) or manual pipetting methods for single cell sorting and isolation. Most flow cytometry sorting methods inflict potentially damaging stress on cells, are costly and difficult to operate, and require large numbers of cells. Similarly, manual pipetting methods are inefficient, unreliable and time consuming. Namocell’s proprietary single cell technology uniquely combines microfluidics, flow cytometry and liquid dispensing to achieve sorting and dispensing in a single step, while eliminating the risks associated with traditional FACS such as clogging and cross-contamination.

Namocell’s instrument portfolio includes Pala, a 2-laser system with up to 11 fluorescent detection channels and Hana, a single-laser system with 2 fluorescent detection channels. With unparalleled speed and ease of use, both systems utilize Namocell’s proprietary single-use cell cartridges to deliver single cells from sample to plates in minutes. Namocell’s current installed base is approaching 200 placements, including approximately 60 instruments sold in calendar 2021.

"Namocell is very complementary to Bio-Techne’s existing Cell and Gene Therapy franchise and we anticipate significant commercial synergies as we leverage our existing analytical tools sales force to penetrate this market opportunity," said Chuck Kummeth, President and Chief Executive Officer of Bio-Techne. "Emerging technologies in cell-based research as well as next-generation therapeutics have created a need for fast, reliable, easy-to-use, and gentle cell sorting. Namocell’s instruments offer unparalleled performance advantages over traditional flow cytometry and manual techniques and we anticipate continued traction with its leading portfolio of cell sorting technologies. We are excited to welcome Namocell to the Bio-Techne team."

"We are very excited to be joining Bio-Techne," said Dr. Junyu Lin, Chief Executive Officer of Namocell. "Bio-Techne’s global reach and strategic deployment in cell and gene therapy will enable Namocell to accelerate its penetration into the global markets, particularly in cell engineering and cell therapy applications, our biggest and fastest growing sectors. We look forward to beginning the next chapter of growth as part of Bio-Techne."

Fredrikson & Byron, P.A. is serving as Bio-Techne’s legal counsel. Wilson Sonsini Goodrich & Rosati is serving as legal counsel to Namocell.

On June 22, 2022 Invectys reported that it will be attending the 9th International Conference on HLA-G (Press release, Invectys, JUN 22, 2022, View Source [SID1234616161]).

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Focused on the key immunomodulatory molecule HLA-G, this conference aims to cover the research within this field. Advances in oncology, organ transplantation, autoimmune diseases, virology, etc, will be presented.

Invectys will be giving 2 presentations: « Redirection of immune cells specificity against HLA-G: anti HLA-G CAR T Cells« , on July 4th at 12:10, and « Advances in cancer immunotherapy development: new VHH-based immune checkpoint inhibitors targeting the receptor ILT4« , on July 4th at 12:50.

On June 22, 2022 Sirona Biochem Corp. (TSX-V: SBM) (FSE: ZSB) (OTC: SRBCF) ("Sirona") reported that it has signed an agreement with Contract Manufacturing Organization (CMO) WuXi AppTec ("WuXi"), Shanghai, for the small-scale production of TFC-1326, a powerful active against the aging effects on skin (Press release, Sirona Biochem, JUN 22, 2022, View Source [SID1234616160]).

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Years of groundbreaking research by Sirona’s team of scientists at TFChem has shown in preclinical studies that TFC-1326 has the potential to reverse the effects of aging on skin, including the potential to eliminate fine wrinkles. The scientific data is strong, and we are now preparing for a clinical trial. There are no existing compounds that our scientists are aware of, that have the potential to reverse the effects of the aging process on skin to truly restore its structure and youthful appearance. The anti-aging and anti-wrinkle markets are estimated to be $271 Billion USD globally by 2024.

We are in advanced discussions with a leading clinical trial provider designing the planned clinical trial. Other necessary steps, including formulation and safety work, is being organized. As soon as this is completed and the clinical study starts, we will provide further information on this.

"There are many anti-aging and anti-wrinkle products available on the market currently. But to truly reverse the damage to the skin integrity that occurs naturally with aging is an area of unmet need. Our goal is to demonstrate clinically the potential of TFC-1326 to restore the integrity of the skin and return a more youthful appearance. The treatment of fine wrinkles is also a goal. BOTOX is the most effective on dynamic wrinkles while static wrinkles typically are managed by fillers. TFC-1326 has the potential to replace or supplement dermal filler injections to treat these static wrinkles," said Dr Howard Verrico, CEO of Sirona Biochem. "TFC-1326 with its unique mechanism of action is revolutionary in the aesthetic skin care space. Like our recent success, licensing TFC-1067 and the corresponding compound family globally, we see this as another opportunity to showcase the tremendous potential of our platform technology. And, of course, we are pursuing another lucrative licensing agreement for TFC-1326."

On June 22, 2022 Diamyd Medical reported it’s B-share is traded on Nasdaq First North Growth Market under the ticker DMYD B (Press release, Diamyd Medical, JUN 22, 2022, View Source/docs/pressClip.aspx?section=investor&" target="_blank" title="View Source/docs/pressClip.aspx?section=investor&" rel="nofollow">View Source;ClipID=4295146 [SID1234616159]).
Further information is available on View Source

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September 1, 2021 – May 31, 2022

Net result: MSEK -63.4 (87.3), third quarter: MSEK -17.1 (-32.7). The previous year includes a one-off effect of corresponding MSEK 144.4 from divestment of shares in Companion Medical, Inc.
Result per share: SEK -0.8 (1.3), third quarter: SEK –0.2 (-0.5)
Cash flow from operating activities: MSEK -50.7 (-50.4), third quarter: MSEK -35.7 (-21.4)
Cash and cash equivalents at May 31, 2022: MSEK 192.8 (194.2)
Other events during the third quarter

Analysis of prevention trial with Diamyd published in Journal of Immunology Research
First patient enrolled in the Phase III trial DIAGNODE-3
Principal owner transferred half of his holdings in Diamyd Medical to his children
New meta-analysis with Diamyd published in Diabetes, Obesity and Metabolism
Diabetes prevention project coordinated by Diamyd Medical presented at scientific conference
Investigator-initiated clinical trial to evaluate booster injection with Diamyd started
Other events after the third quarter

Analysis supporting treatment with Diamyd published in The Journal of Clinical Endocrinology & Metabolism

Comments by CEO Ulf Hannelius
In May we reported a significant milestone as the first patient was randomized in the precision medicine trial DIAGNODE-3 with Diamyd. Approximately 20 clinics in Europe have so far been initiated and additional clinics and countries in Europe are underway.

In parallel, we are working diligently with the FDA with the aim to offer this important trial also to clinics and patients in the United States. As we aim to recruit the approximately 330 individuals with recent onset Type 1 Diabetes carrying the genetic HLA DR3-DQ2 haplotype for DIAGNODE-3 over the course of two years, there should be time to work with the FDA to resolve any outstanding questions, however we do have readiness to perform the trial solely in Europe if required to keep recruitment timelines.

A "Booster trial" with Diamyd, DIAGNODE-B, has started where approximately six individuals who have previously been treated with intralymphatic Diamyd and carry the responder haplotype HLA DR3-DQ2, will receive an additional booster injection. The Sponsor is Linköping University, and results will build on our existing insights into boosters and give knowledge about how effect of Diamyd is possibly further improved and/or prolonged as is often the case with vaccines.

The scientific rational and evidence supporting our therapeutic diabetes vaccine Diamyd was further strengthened the past quarter with three articles published in peer-reviewed scientific journals. These publications highlight three important findings:

As published in Diabetes, Obesity and Metabolism, a largescale meta-analysis showed how the therapeutic effect of Diamyd on endogenous insulin production measured as C-peptide associates with improved blood glucose measured as HbA1c. This is to our knowledge the first time this association has been shown for a disease modifying therapy in Type 1 Diabetes and importantly supports the current regulatory requirements regarding clinical efficacy in pivotal trials.
As published in Journal of Clinical Endocrinology & Metabolism, results based on continuous glucose monitoring showed how treatment with Diamyd increases time in optimal glucose range, decreases time in hyperglycemia and decreases glycemic variability. These are important patient centric measures highlighted in several talks during the 82nd Scientific Sessions organized held earlier this month in New Orleans and organized by the American Diabetes Association earlier this month.
As published in the Journal of Immunology Research, treatment with Diamyd in healthy children at risk for Type 1 Diabetes leads to a decrease in T-lymphocyte counts compared to placebo. This is the first report of the immune response following Diamyd treatment in this population and supports our efforts as part of the ASSET project (www.asset.healthcare) to predict and prevent Type 1 Diabetes.
ASSET, an innovation milieu focusing on risk prediction, prevention, and national screening of Type 1 Diabetes, coordinated by Diamyd Medical and supported by the Swedish Innovation Agency VINNOVA, was also presented at the Scandinavian Society for the Study of Diabetes meeting in Reykjavik last month. With ASSET financing we look forward to starting the first ever "prevention trial" in individuals carrying at least two beta cell autoantibodies and the HLA DR3-DQ2 haplotype, in order to save these individuals from becoming insulin requiring (Stage-3 Type-1 Diabetes). We expect to announce the 12-month results from the GADinLADA trial lead by Norwegian University of Science and Technology late summer/early autumn. Our collaborators in Norway will present results at the upcoming international EASD conference in Stockholm in September this year, highlighting the importance of intervention in LADA.

We are proud to be strong both regarding our cash position as well about our ongoing value creating activities including the pivotal Diamyd program; the vaccine manufacturing facility in Umeå; our second diabetes clinical asset Remygen, and our investments in artificial intelligence and stem cells.

All this gives us strength to advance our mission to fundamentally change the therapeutic landscape of Type 1 Diabetes.

Stockholm, June 22, 2022
Ulf Hannelius, President and CEO

Other events during the third quarter

March 1, 2022 – May 31, 2022

Immunological analysis of prevention trial with Diamyd was published in peer-reviewed scientific journal
Results of an analysis of a previous prevention trial with Diamyd (GAD-alum) treatment, which indicate a positive and sustained immunomodulating effect after treatment with Diamyd in healthy children at risk for Type 1 Diabetes, have been published in Journal of Immunology Research.

The first patient was enrolled in Diamyd Medical’s Phase III trial DIAGNODE-3
The first patient received its first intralymphatic injection of Diamyd in the precision medicine Phase III trial DIAGNODE-3. The trial will include approximately 330 patients aged 12 to 29 years newly diagnosed with Type 1 Diabetes who carry the genetically defined haplotype HLA DR3-DQ2.

Diamyd Medical’s principal owner transferred half of his holdings in Diamyd Medical to his children
Anders Essen-Möller notified the Swedish Financial Supervisory Authority of the sale of 4,500,000 Diamyd Medical shares in the form of gifts. Essen-Möller’s five children each received 400,000 Class A shares and 500,000 Class B shares.

New meta-analysis with Diamyd was published in peer-reviewed scientific journal
An update of a large-scale meta-analysis supporting the efficacy of the therapeutic diabetes vaccine Diamyd in individuals recently diagnosed with Type 1 Diabetes carrying the genetic HLA DR3-DQ2 haplotype was published in the peer-reviewed scientific journal Diabetes, Obesity and Metabolism. The analysis shows that treatment effect with Diamyd on the preservation of endogenous insulin production measured as C-peptide is associated with a beneficial treatment effect on blood glucose measured as HbA1c.

Diabetes prevention project coordinated by Diamyd Medical was presented at a scientific conference
The ASSET (AI for Sustainable Prevention of Autoimmunity in the Society) innovation milieu for the development of improved prevention strategies in Type 1 Diabetes, funded by the Swedish innovation agency VINNOVA was presented by CEO Ulf Hannelius at the Annual Meeting of the Scandinavian Society for the Study of Diabetes (SSSD), in Reykjavík in May.

New clinical trial will evaluate an additional injection (booster) with Diamyd
A new investigator-initiated clinical trial, DIAGNODE-B, started. The trial will evaluate the safety, impact on the immune system and the clinical efficacy of an additional injection with the antigen-specific immunotherapy Diamyd. The trial has been approved by the Swedish Medical Products Agency and the Ethical Review Authority and will be offered to approximately 6 patients from the previous trials DIAGNODE-1 and DIAGNODE-2.

Other events after the third quarter

Analysis supporting treatment with Diamyd published in peer-reviewed scientific journal
An article presenting analyses of Continuous Glucose Monitoring (CGM) data from the randomized, placebo-controlled Phase 2b trial DIAGNODE-2 that assessed three intralymphatic injections of the therapeutic diabetes vaccine Diamyd, has been published in the peer-reviewed scientific journal The Journal of Clinical Endocrinology & Metabolism (JCEM).

Two drugs in clinical development
Diamyd and Remygen are drugs in clinical development that focus on the underlying disease mechanisms of diabetes; the dysfunction and loss of insulin-producing beta cells in the pancreas.

Diamyd is an antigen-specific immunomodulating precision medicine diabetes vaccine for the treatment and prevention of autoimmune diabetes (type 1 diabetes and LADA, Latent Autoimmune Diabetes in Adults).

Clinical data indicate the potential of the diabetes vaccine Diamyd to halt or stop the autoimmune destruction of insulin-producing beta cells in individuals that carry the HLA DR3-DQ2 haplotype. The effect is achieved by antigen-specific reprogramming of immune cells by administration of low doses of Diamyd in superficial lymph nodes. By maintaining the endogenous insulin production, Diamyd has the potential to make a significant difference in the daily life of patients as well significantly reduce the complications of type 1 diabetes. Topline results from the Phase IIb trial DIAGNODE-2 demonstrated a significant treatment effect of Diamyd in the predefined genetic patient group. A confirming Phase III trial, DIAGNODE-3, is on-going.

Remygen is an oral regenerative and immunomodulatory drug candidate for the treatment of autoimmune- and type 2 diabetes. By stimulating the growth of insulin-producing cells, Remygen has the potential to reverse the disease progression in autoimmune- and type 2 diabetes. Based on clinical data, Remygen has also the potential to protect against hypoglycemia by improving the hormonal response. Remygen is now being investigated in a clinical Phase I/II trial (ReGenerate-1), where clinical efficacy is evaluated with the aim of optimizing the treatment regimen ahead of registration-based trials.

Clinical trials
Type 1 Diabetes is a devastating disease which requires daily treatment with insulin to sustain life. The importance of finding a drug that improves the prospects for patients with diabetes is of utmost importance. The effect of intralymphatic administration of Diamyd, an antigen-specific precision medicine immunotherapy aimed at stopping the immune system’s attack on insulin-producing beta cells in autoimmune diabetes, are evaluated in the Phase III trial DIAGNODE-3, in the Phase II trial GADinLADA and in the Phase I/II trial DIAGNODE-B.

Remygen, which aims to stimulate the growth of beta cells in patients with diabetes, is evaluated in patients in the Phase I/II trial ReGenerate-1.

Ongoing clinical trials

Trials with Diamyd in lymph node

DIAGNODE-3 – DIAMYD IN LYMPH NODES WITH ORAL SUPPLEMENTATION OF VITAMIN D
The placebo-controlled Phase III trial DIAGNODE-3 will include approximately 330 individuals aged 12 to 28 who have been recently diagnosed with type 1 diabetes and who carry the genetically defined haplotype HLA DR3-DQ2. The trial will be conducted at approximately 50 clinics, where almost half of all individuals with Type 1 Diabetes are estimated to carry the current haplotype. After an initial month in which all trial participants receive vitamin D, the individuals will be randomized 2:1, ie two out of three trial participants will receive three intralymphatic injections of Diamyd and one in three will receive the corresponding placebo at one month intervals, with one primary reading 24 months after trial start. The design provides, based on efficacy data from previous studies on the HLA-restricted patient population, a high probability of reaching the primary endpoints; preservation of stimulated C-peptide and lower HbA1c. The Coordinating Investigator for the trial is Professor Johnny Ludvigsson at Linköping University. The Sponsor of the trial is Diamyd Medical.

GADinLADA – DIAMYD IN LYMPH NODES WITH ORAL SUPPLEMENTATION OF VITAMIN-D
The main aim of the trial is to evaluate the safety of intralymphatic treatment with Diamyd in patients with LADA (Latent Autoimmune Diabetes in Adults). The patients have been recruited in Norway at the Norwegian University of Science and Technology (NTNU) in Trondheim, in collaboration with St. Olavs Hospital, University Hospital in Trondheim, and in Sweden at the Center for Diabetes, Akademiskt specialistcentrum, an academic specialist unit run in collaboration between Stockholm County’s healthcare area, Karolinska Institutet and Karolinska University Hospital. The patients included in the trial are between 30 and 70 years old, have been diagnosed with LADA within the last 18 months and are not yet on insulin therapy. The Sponsor of the trial is the NTNU with Ingrid K Hals as Sponsor’s representative. Diamyd Medical contributes with study drugs, expertise and some financial support for immunological analyzes and determination of HLA haplotypes. 12-month results are expected later in 2022.

DIAGNODE-B – ADDITIONAL INJECTION OF DIAMYD IN LYMPH NODES
The aim of the trial is to evaluate the safety of a booster (fourth/fifth) injection with Diamyd and the effect on the immune system and the endogenous insulin production. DIANGODE-B is an open-label investigator-initiated clinical trial enrolling Type 1 Diabetes patients who carry the genetically defined haplotype HLA DR3-DQ2 and are previously treated with intralymphatic injections of Diamyd. The trial is planned to include approximately 6 patients who have either been treated with four injections in DIAGNODE-1, who will then receive a 5th intralymphatic injection of Diamyd, or patients who participated in DIAGNODE-2, who will receive a 4th intralymphatic injection of Diamyd, approximately 4 years after the last injection. The patients will be followed for 12 months after injection. The trial is conducted at the Clinical Research Unit at the University Hospital in Linköping. Sponsor of the trial is Linköping University with Professor Johnny Ludvigsson as Sponsor’s representative.

Trial with Remygen (GABA)

REGENERATE-1 – REMYGEN /ALPRAZOLAM
An open-label, investigator initiated clinical trial with Remygen. The trial includes 35 patients aged 18-50 who have had Type 1 Diabetes for more than five years with low to non-existing insulin production. Safety and initial efficacy results from the dose escalation section of the trial have paved the way to initiate the main trial and have also demonstrated a potential effect of Remygen to improve the hormonal response to hypoglycemia. The main trial evaluates whether the insulin-producing cells can be regenerated and if the hormonal response to hypoglycaemia can be improved using Remygen and the combination of Remygen and Alprazolam. The trial is led by Professor Per-Ola Carlsson at Uppsala University, Sponsor of the trial.

Results are expected in the first quarter of 2023.

Manufacturing of GAD65 in Umeå
A new facility for vaccine manufacturing is being set up in Umeå, the Capital of Västerbotten County in Sweden, for the manufacture of recombinant GAD65, the active pharmaceutical ingredient in the therapeutic diabetes vaccine Diamyd currently in late-stage clinical development. The 10 000 square feet site, comprising of clean rooms, laboratory facilities and office space, will facilitate full control, predictability and scalability of the manufacturing technology of the active ingredient. Diamyd Medical has chosen Cytiva’s configurable single-use bioprocess manufacturing platform FlexFactory for the process. Small-scale experimental production of GAD65 is now established at the manufacturing facility. Large-scale production is being set up primarily using Cytiva equipment. The property where the manufacturing is being established is owned by Diamyd Medical.