On March 22, 2022 ITM Isotope Technologies Munich SE (ITM), a leading radiopharmaceutical biotech company, reported the successful closing of an equity investment totaling EUR 33 million from the Indigenous Critical Infrastructure Fund Canada (ICIF) and from a private equity fund managed by Portland Investment Counsel Inc., a related and connected party to Portland Holdings (Press release, ITM Isotopen Technologien Munchen, MAR 22, 2022, View Source [SID1234610611]). The capital increase follows the recently announced EUR 25 million equity investment from ITM’s strategic partner, Grand Pharma, bringing the total amount of cash raised to date in 2022 to EUR 58 million in this financing round. The proceeds will primarily be used for the finalization of the late-stage development of the company’s lead candidate ITM-11 (n.c.a. 177Lu-edotreotide), a targeted radiopharmaceutical currently being evaluated in two phase III clinical trials for the treatment of gastroenteropancreatic neuroendocrine tumors (GEP-NETs), a high-need cancer indication, as well as for any future commercialization and market launch efforts, if approved. In addition, the funding will be used to accelerate the strategic development of additional radiopharmaceutical candidates in ITM’s broad proprietary pipeline and the expansion of ITM’s radioisotope supply capabilities.

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"The ICIF is pleased to invest in ITM’s Targeted Radionuclide Therapy initiative as both an exciting economic opportunity as well as a way to potentially positively impact Indigenous health outcomes globally, particularly with regards to cancer," added Chief Keith Matthews, Chairman of ICIF.

"I am thrilled that ITM and ICIF have reached this significant milestone. The need to improve health care globally and address the unmet needs of cancer patients through innovative therapies, particularly targeted radionuclide therapy, has never been more critical. ITM is central to this industry and is disrupting traditional forms of treatments like chemotherapy and external beam radiation, with new diagnostic and therapeutic solutions that we believe will help improve outcomes and quality of life of cancer patients. We believe ICIF’s support of nuclear medicine initiatives should have a meaningful impact on communities affected by cancer, domestically and worldwide," said Michael Lee-Chin, Supervisory Board Member of ITM and founder and chairman of Portland Holdings. "Portland’s mantra of ‘Doing Well and Doing Good’ and our unwavering commitment through investments to democratize health care for all is reflected in our continuous support to ITM and the precision oncology industry."

"The financing by ICIF and Portland Holdings emphasizes our efforts to build a global community towards a paradigm shift in precision oncology combining ITM’s deep technology, global network and manufacturing expertise in producing high-quality radiopharmaceuticals with the insights to advance a broad diagnostic and therapeutic pipeline and we are, together with Portland Holdings, very happy and honored to be able to welcome the Indigenous Critical Infrastructure Fund to the growing global community of our investors," commented Steffen Schuster, Chief Executive Officer of ITM.

ITM is a global leader in the production and supply of high-quality medical radioisotopes for the precise diagnosis and targeted treatment of various cancer indications and has established a wide-reaching international supply network. The company has integrated its expertise to developing a broad proprietary pipeline of targeted radiopharmaceutical diagnostics and therapeutics designed to address hard-to-treat cancer indications. ITM combines its first-class medical radioisotopes with targeting molecules capable of reaching a range of tumors, including gastroenteropancreatic neuroendocrine tumors (GEP-NETs), which severely lack treatment options. ITM is working toward validating its approach with its lead candidate, ITM-11, in two phase III clinical trials, COMPETE (NCT03049189) and COMPOSE (NCT04919226).

About Targeted Radionuclide Therapy
Targeted Radionuclide Therapy is an emerging class of cancer therapeutics, which seeks to deliver radiation directly to the tumor while minimizing radiation exposure to normal tissue. Targeted radiopharmaceuticals are created by linking a therapeutic radioisotope to a targeting molecule (e.g., peptide, antibody, small molecule) that can precisely recognize tumor cells and bind to tumor-specific entities such as receptors which are expressed on the cell surface. As a result, the radioisotope accumulates at the tumor site and decays, releasing a small amount of ionizing radiation, thereby destroying tumor tissue. The highly precise localization potentially enables targeted treatment with minimal impact to healthy surrounding tissue.

About ITM-11 (n.c.a. 177Lu-edotreotide)
ITM-11, ITM’s therapeutic radiopharmaceutical candidate being investigated in the phase III clinical studies COMPETE and COMPOSE, consists of two components: the medical radioisotope no-carrier-added lutetium-177 (n.c.a. 177Lu) and the targeting molecule edotreotide, a synthetic form of the peptide hormone somatostatin that targets neuroendocrine tumor-specific receptors. Edotreotide binds to these receptors and places the medical radioisotope n.c.a. lutetium-177 directly onto the diseased neuroendocrine cells so that it accumulates at the tumor site. N.c.a. lutetium-177 is internalized into the tumor cells and decays, releasing medical radiation (ionizing β-radiation) with a maximum radius of 1.7 mm and destroying tumor tissue. The highly precise localization can result in the healthy tissue surrounding the targeted tumor being minimally affected.

On March 22, 2022 Cardiff Oncology, Inc. (Nasdaq: CRDF), a clinical-stage biotechnology company leveraging PLK1 inhibition to develop novel therapies across a range of cancers, reported that CEO Mark Erlander, Ph.D., has been invited to present at the 2022 Virtual Growth Conference, presented by Maxim Group LLC and hosted by M-Vest, on March 28th – 30th from 9:00 AM – 5:00 PM EDT (Press release, Cardiff Oncology, MAR 22, 2022, View Source [SID1234610610]).

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Details on the presentation can be found below.

In addition to the fireside chat, Dr. Erlander will also provide a pre-recorded overview of Cardiff Oncology’s clinical and corporate strategy. The pre-recorded presentation will be available throughout the duration of the conference, which will be streamed live on M-Vest. To attend, sign up to become an M-Vest member here.

A replay of the fireside chat will be available by visiting the "Events" section on the investor page of the Cardiff Oncology website after the conference’s conclusion.

On March 22, 2022 PharmaCyte Biotech, Inc. (NASDAQ: PMCB), a biotechnology company focused on developing cellular therapies for cancer and diabetes using its signature live-cell encapsulation technology, Cell-in-a-Box, reported that it has successfully completed a 24-month product stability study required by the U.S. Food and Drug Administration (FDA) for its clinical trial product candidate, CypCaps (Press release, PharmaCyte Biotech, MAR 22, 2022, View Source [SID1234610609]). The significance of this timepoint is that CypCaps has now demonstrated that it has a shelf life of at least 24 months when stored at -80oC.

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PharmaCyte’s Chief Executive Officer, Kenneth L. Waggoner, said of the completed 24-month stability study, "While we continue to establish a maximum shelf life for our clinical trial product candidate, CypCaps, reaching the 24-month timepoint is highly significant in allowing PharmaCyte to store a biologic at -80oC. We demonstrated that frozen CypCaps maintain their viability, enzymatic activity and cell potency after 2 years of storage at -80oC in a cryopreserved state. This is a major milestone not only for PharmaCyte but also for the cell therapy field."

After 24 months storage of the Cell-in-a-Box encapsulated cell product, CypCaps, at -80oC, the product was thawed and analyzed for cell viability, enzyme activity and cell potency as well as being examined for pH, label integrity, capsule appearance, capsule integrity and container closure integrity.

Notably, over the entire 24-month period, there was no significant change in the number and viability of the encapsulated cells, or, most importantly, in the biological activity that is key to activating the anti-cancer mechanism PharmaCyte uses for its cancer therapy. The successfully completed stability study was initiated prior to the submission of the company’s IND to the FDA, and the information and data obtained from the study will form part of the updated package of information that will be provided to the FDA, together with data from additional studies requested by this regulatory agency.

This formal study, performed under GMP conditions, confirms previous laboratory data generated by PharmaCyte’s partner, Austrianova, showing cell viability and activity of a similar Cell-in-a-Box cell encapsulation product upon storage in the frozen state for over 6 years.

This data is remarkable and stands in stark contrast with data obtained after cryopreservation of alginate encapsulated cells where one study showed viability after 2 weeks storage (Nicola Cagol, Walter Bonani, Devid Maniglio, Claudio Migliaresi, Antonella Motta (2018) Effect of cryopreservation on cell-laden hydrogels: comparison of different cryoprotectants. Tissue Eng. Part C Methods 24:20-31) and another using alginate encapsulated islets showed viability when thawed after 4 weeks storage in a frozen state (Greg G Kojayan, Antonio Flores, Shiri Li, Michael Alexander, and Jonathan RT Lakey (2019) Cryopreserved alginate-encapsulated islets can restore euglycemia in a diabetic animal model better than cryopreserved non-encapsulated islets. Cell Medicine 11: 1-6). Another study using cryopreserved cardiosphere-derived cells encapsulated in alginate-poly-L-lysine-alginate microcapsules showed viability of the cells after being revived 60 days after storage in a frozen state (Paz-Artigas L, Ziani K, Alcaine C, Báez-Díaz C, Blanco-Blázquez V, Pedraz JL, Ochoa I, Ciriza J. (2021) Benefits of cryopreservation as long-term storage method of encapsulated cardiosphere-derived cells for cardiac therapy: A biomechanical analysis. Int J. Pharm. 607:121014).

To learn more about PharmaCyte’s pancreatic cancer treatment and how it works inside the body to treat locally advanced, inoperable pancreatic cancer, we encourage you to watch the company’s documentary video complete with medical animations at: View Source

On March 22, 2022 AC Immune SA (NASDAQ: ACIU), a clinical-stage biopharmaceutical company pioneering precision medicine for neurodegenerative diseases, reported its financial results for the year ended December 31, 2021, and provided a corporate update, highlighting progress in its broad pipeline of products to treat and diagnose neurodegenerative diseases (Press release, AC Immune, MAR 22, 2022, View Source [SID1234610608]).

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Prof. Andrea Pfeifer, CEO of AC Immune SA, commented: "We are off to a strong start in 2022 with the second of seven clinical data readouts presented last week at the AD/PD 2022 conference. The first-in-human study of our alpha-synuclein diagnostic, ACI-12589, showed it has strong potential to become the first reliable and accurate PET tracer for alpha-synucleinopathies (e.g. multiple system atrophy, MSA)."

"Pairing cutting-edge diagnostics with highly targeted and selective therapeutic agents, such as our vaccines targeting alpha-synuclein, phosphorylated-Tau, and Abeta, which are all advancing into later-stage development this year, we aim to shift the therapeutic paradigm of neurodegenerative diseases towards earlier, more accurate diagnosis, treatment, and prevention," Prof. Pfeifer said.

2021 and Subsequent Highlights

Pipeline progress

Tau

Expanded the Phase 1b/2a trial evaluating the first-in-class anti-phosphorylated-Tau (pTau) vaccine candidate ACI-35.030 for the treatment of AD in collaboration with Janssen Pharmaceuticals, Inc. The decision to expand the trial, which was made to support plans to advance ACI-35.030 into late-stage development, was based on encouraging interim safety, tolerability, and immunogenicity results. These showed that ACI-35.030 treatment was well tolerated and led to the strong induction of antibodies specific for pathological forms of Tau such as pTau and its aggregated form, enriched paired helical filaments (ePHF).
Top line data from the Phase 2 Lauriet trial of semorinemab in mild-to-moderate AD presented at CTAD 2021 showed a statistically significant (p=0.0008) 42.2% reduction in cognitive decline vs. placebo as measured by ADAS-Cog11 at week 49, one of the trial’s co-primary endpoints. There were no statistically significant differences between semoribemab and placebo arms in the other co-primary endpoint, ADCS-ADL, or in the secondary endpoints (MMSE and CDR-SB). AC Immune’s partner Genentech, a member of the Roche Group, is continuing with the trial’s open-label extension. Additional fluid biomarker data are expected in H2 2022.
Abeta

Presented full results from the landmark Phase 1b clinical trial evaluating the anti-Abeta vaccine ACI-24 in subjects living with Down syndrome (DS) at the Alzheimer’s Association International Conference (AAIC) 2021. These results showed evidence of immunogenicity and pharmacodynamic response following ACI-24 treatment and demonstrated its favorable safety and tolerability profile.
Presented at CTAD 2021 full results of the Phase 2 study evaluating ACI-24 in patients with mild AD. This assessment confirmed earlier results showing no safety concerns nor evidence of inflammation or ARIA (amyloid-related imaging abnormalities) related to ACI-24 in any subject.
New data on the optimized formulation of ACI-24 were published in a peer reviewed journal Brain Communications. The optimized formulation was well tolerated in preclinical models and generated a broad polyclonal anti-Abeta response with high titers of antibodies against neurotoxic pyroglutamate Abeta (pyroGlu-Abeta), a major component of Abeta plaques. Additional preclinical data on optimized ACI-24 were presented at AD/PD 2022 confirming its enhanced and sustained immunogenicity against another key pathological Abeta species, oligomeric Abeta.
A-syn

Clinical PET image analyses and preclinical studies were presented at AD/PD 2022 suggest that ACI-12589 was retained in brain areas affected by disease processes involving a-synuclein (a-syn) aggregation, indicating the product-candidate has potential as the first non-invasive diagnostic for alpha-synucleinopathies (e.g. MSA).
Completed all-stock acquisition of Affiris’ portfolio of therapeutics targeting a-syn, notably PD01, a clinically validated active vaccine candidate that places AC Immune at the forefront of Parkinson’s disease (PD) drug development. ACI-7104, the optimized formulation of PD01, is on track to enter Phase 2 testing in early PD patients in H2 2022.
Identified and characterized the first biologically active small molecule Morphomer a-syn aggregation inhibitors, showing that they significantly decreased a-syn aggregate formation in cellular assays by interfering with the fibrillation process.
NLRP3

Reported key advancements for several therapeutic discovery programs targeting the (NOD)-like receptor protein 3 (NLRP3) inflammasome. Small molecule Morphomer inhibitors of NLRP3 showed the first evidence of in vivo activity in a model of peripheral inflammation, while high-affinity SupraAntigen monoclonal antibodies were shown to bind extracellular components (ASC) of the NLRP3 pathway and inhibit inflammasome-mediated immune responses in vitro.
Strenthening Financial Position and Extend Shareholder Base

Strengthened cash position via an equity financing, adding the three lead investors in Covid-19 vaccine innovator BioNTech SE, Athos Service GmbH (Strüngmann family office), First Capital Partner GmbH (Egger Family Office), and MIG Fonds, as part of the Affiris deal.
Strengthening of Board

Appointed Alan Colowick, M.D., Monica Shaw, M.D., and Prof. Monika Bütler, Dr. oec., to the Company’s Board of Directors. Dr. Colowick is a biotech and investment executive with more than 20 years of experience in large and emerging biotech companies. Dr. Shaw is a pharmaceutical industry expert who has been involved in advancing more than 15 therapeutic products from first-in-human studies through commercialization. Prof. Bütler is a leading Swiss economist and former Vice President of the independent Swiss COVID-19 Science Taskforce.
Thought Leadership and Collaborations

Swiss Economic Forum (SEF) awarded AC Immune Co-Founder and CEO Prof. Andrea Pfeifer with the first SEF.WomenAward for CEO of the Year. This award recognizes women with an excellent entrepreneurial track record, giving greater prominence to role models who can inspire the next generation of businesswomen.
Expanded the Company’s research collaboration with leading scientists at the Center for Neurodegenerative Disease Research at the Perelman School of Medicine at the University of Pennsylvania. This partnership aims to advance therapeutic strategies targeting TAR DNA-binding protein 43 (TDP-43), a major driver of neurodegenerative diseases.
Received two Michael J. Fox Foundation grants to accelerate the development of first-in-class brain penetrant small molecules to inhibit alpha-synuclein aggregation and NLRP3 inflammasome activation in PD.
Our strategy for 2022
AC Immune’s execution strategy is to advance late-stage AD programs with partners, accelerate its non-AD and NeuroOrphan programs in-house, and advance development of its suite of potentially best-in-class diagnostics to enable precision medicine. The Company intends to maintain program leadership over its wholly-owned AD and PD vaccine programs until Phase 3 or beyond, and expects to initiate two mid-stage clinical trials in 2022:

ACI-7104 anti-a-syn vaccine candidate is on track to enter an adaptive, placebo-controlled, and biomarker-based Phase 1b/2 study in patients with early PD in H2 2022. The two part study will evaluate safety, immunogenicity, and measure biomarkers of pathological alpha-synuclein in Part 1, with a seamless transition to Part 2, which will aim to establish clinical proof-of-concept by monitoring progression of PD symptoms and biomarkers.
Optimized ACI-24 Abeta vaccine is on track to enter a placebo-controlled Phase 1b/2 study evaluating different dosing regimens vs. placebo in up to four cohorts of patients with AD before being expanded to a separate cohort of people living with DS to address DS-related AD. Key outcome measures for the study will include assessments of safety, immunogenicity, pharmacodynamics, target engagement, Abeta-PET and clinical outcomes.
2022 Clinical Milestones

ACI-12589
a-syn-PET tracer Reported results from first-in-human study at AD/PD 2022 conference
ACI-35.030
anti-pTau vaccine Reported Phase 1b/2a interim analysis from highest dose group in Q1; disclose future late-stage development plans in H2
ACI-24 (optimized)
anti-Abeta vaccine ACI-24 (optimized vaccine formulation) Phase 1b/2a First-Patient-In (AD) in H1 Phase 1b in AD readout and decision to move into DS in H2
Crenezumab
anti-Abeta antibody Top line Phase 2 results from AD prevention trial in patients with autosomal dominant AD in H1
Semorinemab
anti-Tau antibody Additional fluid biomarker data from the Phase 2 Lauriet study in mild-to-moderate AD in H2
PI-2620
Tau-PET tracer Phase 2 and Phase 1 results in AD and progressive supranuclear palsy (PSP) respectively, in H2
ACI-7104
anti-a-syn vaccine Initiate Phase 2 trial in early PD in H2
Analysis of Financial Statements for the year ended December 31, 2021

Cash Position: The Company had a total cash balance of CHF 198.2 million, composed of CHF 82.2 million in cash and cash equivalents and CHF 116.0 million in short-term financial assets. This compares to a total cash balance of CHF 225.9 million as of December 31, 2020. The Company’s cash balance provides enough capital resources to progress through at least Q1 2024 without consideration of potential incoming milestone payments.
Contract Revenues: The Company did not record contract revenues for the year ended December 31, 2021, a decrease of CHF 15.4 million from the comparable period in 2020. The overall decrease is predominantly related to a CHF 10 million milestone payment as well as CHF 4.3 million associated with R&D activities in our agreement with Lilly that were recognized in 2020 and did not repeat in the current period.
R&D Expenditures: R&D expenses increased by CHF 2.8 million for the year ended December 31, 2021, to CHF 62.3 million.
Discovery and preclinical expenses (- CHF 0.4 million): The Company decreased expenditures across a variety of its discovery and preclinical programs. This was predominantly led by a decrease in investment for the research of alpha-synuclein antibodies and other discovery programs.
Clinical expenses (- CHF 2.3 million): The Company decreased expenditures across multiple clinical programs, notably for Phase 1 activities associated with our Morphomer Tau compound and expenses. These decreases were offset predominantly by ACI-35.030, which was driven by R&D cost sharing and increased patient enrollments into the Phase 1b/2a study.
Salary- and benefit-related costs (+ CHF 2.3 million): The Company’s salary- and benefit-related costs increased primarily due to the internal reallocation of certain employees’ salaries and the annualization of 2020 hires.
G&A Expenditures: For the year December 31, 2021, G&A decreased by CHF 0.6 million to CHF 17.9 million. This decrease is predominantly related to a reallocation of CHF 2.8 million of certain IT and facilities costs offset by transaction costs incurred to complete the asset acquisition for Affiris’ alpha-synuclein portfolio.
Other Operating Income: The Company recognized CHF 1.2 million in grant income for R&D activities performed under our Michael J. Fox Foundation for Parkinson’s Research (MJFF) and Target ALS grants, a decrease of CHF 0.1 million compared to the prior period.
IFRS Loss for the Period: The Company reported a net loss after taxes of CHF 73.0 million for the year ended December 31, 2021, compared with a net loss of CHF 61.9 million for the comparable period in 2020.
2022 Financial Guidance

For the full year 2022, the Company expects its total cash burn to be in the range, CHF 75 million to CHF 80 million. The Company defines cash burn as operating expenditures adjusted to include capital expenditures and offset by significant non-cash items (including share-based compensation and depreciation expense).

On March 22, 2022 Cyclacel Pharmaceuticals, Inc. (NASDAQ: CYCC, NASDAQ: CYCCP; "Cyclacel" or the "Company"), a biopharmaceutical company developing innovative medicines based on cancer cell biology, reported that it will announce fourth quarter and full year 2021 financial results on Monday, March 28, 2022 (Press release, Cyclacel, MAR 22, 2022, View Source [SID1234610607]). The company will host a conference call and live webcast at 4:30 p.m. Eastern Daylight Time on the same day.

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Conference call information:

For the live and archived webcast, please visit the Corporate Presentations page on the Cyclacel website at www.cyclacel.com. The webcast will be archived for 90 days and the audio replay for 7 days.