On December 8, 2021 Actinium Pharmaceuticals, Inc. (NYSE AMERICAN: ATNM) ("Actinium" or the "Company"), a leader in the development of targeted radiotherapies for patients with unmet needs reported its participation in the Targeted Radiopharmaceuticals Summit being held virtually December 7 – 9, 2021 (Press release, Actinium Pharmaceuticals, DEC 8, 2021, View Source [SID1234596585]). The Targeted Radiopharmaceuticals Summit brings together experts and thought leaders in the field with the goal to achieve meaningful clinical efficacy with theragnostic radionuclide therapies in a mono and combinatorial setting & deliver a robust, cGMP compliant manufacturing supply chain. Representatives from Actinium’s R&D and Clinical Development teams have been invited to participate as expert speakers in two panel presentations during the Targeted Radiopharmaceuticals Summit. The panel details are as follows:

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Panel: Review of the Last 12 Months of Development of Alpha Emitting Therapies

Session: Next Generation Alpha Emitter Based Therapeutics

Actinium Expert Speaker: Helen Kotanides, Ph.D., Vice President, Translational Research and Preclinical Development

Date and Time: December 9, 2021, 5:30 pm CET, 11:30 am EST

Panel: High Dose – Low Dose Therapeutic Strategy: Tailoring the Dose of Radiopharmaceuticals for Opportunity and Outcomes

Session: Optimizing Treatment Regimens

Actinium Expert Speaker: Mary Chen, M.D., Ph.D., Vice President, Clinical Development

Date and Time: December 9, 2021, 6:30 pm CET, 12:30 pm EST

Learn more about the Targeted Radiopharmaceuticals Summit at www.targeted-radiopharma.com.

On December 8, 2021 Onxeo S.A. (Euronext Growth Paris: ALONX, First North Copenhagen: ONXEO), ("Onxeo" or "the Company"), a clinical-stage biotechnology company specializing in the development of innovative drugs targeting tumor DNA Damage response (DDR), reported the presentation of new preclinical data confirming the differentiated antitumoral properties of AsiDNA, its first-in-class DNA Damage Response (DDR) inhibitor, in poster and oral sessions during the EACR-AstraZeneca Virtual Conference organized by the European Association for Cancer Research and AstraZeneca on the theme of "Drug Tolerant Persister Cells" (7-8 December, 2021) (Press release, Onxeo, DEC 8, 2021, View Source [SID1234596601]).

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Several studies have shown that a small population of tumor cells, treated by targeted therapies, evade cell death by entering a reversible dormancy state known as the Drug-tolerant persister (DTP) state. These DTP cells are identified as major source of targeted therapy failures, thus leading to cancer relapse.

The data presented by Onxeo show that the addition of AsiDNA to targeted therapies prevents the regrowth of the DTP cells, thereby completely and irreversibly abolishing the emergence of resistance in tumor cells. The Company first discovered this unique property of AsiDNA in combination with PARPi (see Poster at AAC virtual meeting 2020). The most recent preclinical studies presented at EACR-AstraZeneca Virtual Conference, confirmed the prevention of resistance in other relevant tumor models where AsiDNA was combined with targeted therapies such as KRASi and EGFRi.

Judith Greciet, Chief Executive Officer of Onxeo, stated: "As already demonstrated in our previous studies, drug-tolerant persister cells are a well-established cause of resistance to targeted therapies such as TKIs and PARPi. Our new data provide further evidence that these cells are a major source of resistance to different cancer treatments, and that AsiDNA could be a therapeutic strategy of choice to specifically address this therapy failure. From a medical perspective, this is a major achievement as it paves the way for multiple combination strategies with our leading drug candidate in order to abolish tumor resistance. We are pleased that our pioneering approach has gained strong interest of the international medical and research community at the EACR-AstraZeneca Virtual Conference."

On December 8, 2021 McKesson Corporation (NYSE: MCK) reported that it will host an Investor Day beginning at 1:00 p.m. ET, where executive leadership will provide an overview of the company’s progress towards its goal of delivering sustainable growth and details around the company’s long-term financial outlook (Press release, McKesson, DEC 8, 2021, View Source [SID1234596621]).

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The Investor Day event will showcase how McKesson will deliver long-term growth:

Highlighting significant progress in executing against its priorities by focusing on people and culture, sustainable core growth, streamlining the portfolio, and expanding its oncology and biopharma services ecosystems. The success is evidenced by its strong financial performance and outstanding operational excellence.
Reaffirming its commitment to the growth pillars of oncology and biopharma services. The company’s differentiated set of assets and capabilities uniquely positions the company to win in these growing markets and improve the health outcomes of patients.
Providing a financial overview and long-term outlook that highlights the focus on shareholder value creation and supports a compelling investment thesis.
Increasing fiscal 2022 Adjusted Earnings per Diluted Share guidance range to $22.35 to $22.95, from the previous range of $21.95 to $22.55, to reflect an additional $0.40 related to the U.S. government’s COVID-19 vaccine distribution program.
Announcing a new $4.0 billion increase to the share repurchase program authorized by the Board of Directors.
"We are excited to share our vision and strategy with the investment community. As we focus on the next chapter of growth and innovation, McKesson will leverage the breadth and depth of its core growth to further develop and build differentiated oncology and biopharma services ecosystems," said Brian Tyler, chief executive officer. "We remain committed to delivering superior shareholder returns through sustainable earnings growth and a disciplined approach to capital deployment."

Webcast and Presentations

The video webcast will be available live from 1:00 p.m. to 4:00 p.m. ET on Wednesday, December 8, 2021 at investor.mckesson.com/events-and-presentations. After the event, the archived video webcast will be available on McKesson’s Investor Relations website, along with the company’s slide presentation, at investor.mckesson.com.

Non-GAAP Financial Measure

This press release includes a forecast of Adjusted Earnings per Diluted Share, which is not a financial measure calculated in accordance with U.S. generally accepted accounting principles (GAAP). The company is unable to provide a quantitative reconciliation of this forward-looking Non-GAAP measure to the equivalent forward-looking GAAP measure without unreasonable effort, because the company does not forecast GAAP earnings per share and cannot reliably forecast LIFO inventory-related adjustments, certain litigation loss and gain contingencies, restructuring, impairment and related charges, and other adjustments, which are difficult to predict and estimate. These items are inherently uncertain and depend on various factors, many of which are beyond the company’s control, and as such, any associated estimate and its impact on GAAP performance could vary materially. Refer to investor.mckesson.com and the company’s slide presentation noted above for definitions and explanations of the Company’s Non-GAAP financial measures.

On December 7, 2021 Privo Technologies, Inc. ("Privo"), a biopharmaceutical company focused on optimizing state-of-the-art chemotherapies to be "Tough on cancer, Easy on patients", reported that the Company will be attending the virtual Biotech Showcase from January 17 to January 19, 2022 (Press release, Privo Technologies, DEC 7, 2021, View Source;utm_medium=rss&utm_campaign=privo-technologies-inc-to-attend-biotech-showcase-2022 [SID1234596547]). Members of Privo’s management team will be available for 1×1 meetings with interested parties. Those registered for the event can request a meeting with Privo through the partneringOne portal.

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On December 7, 2021 SynDevRx, Inc., a clinical-stage biotechnology company leading the development in treatments for obesity-accelerated cancers, reported a research collaboration with Australia’s Queensland University of Technology (Press release, SynDevRx, DEC 7, 2021, View Source [SID1234596566]). The collaboration with Professor Colleen Nelson, PhD, and her team will study the role of methionine aminopeptidase 2 (MetAP2) inhibition in tumor growth in castration resistant and other treatment resistant forms of prostate cancer.

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Obesity and systemic metabolic dysfunction like pre-diabetes and type 2 diabetes are known to make many solid tumors more aggressive, including prostate cancer. MetAP2 inhibitors, such as evexomostat (SDX-7320), have been clinically shown to improve systemic metabolic hormone dysregulation1 and to possess direct anti-tumor, anti-metastatic and anti-angiogenic properties2. This combination of attributes may be well suited to sever the link between metabolic dysfunction and cancer, and may prove to be effective in treating advanced prostate cancer in combination with standard-of-care therapies.

Professor Nelson is the founder and executive director of the Australian Prostate Cancer Research Centre – Queensland (APCRC-Q) and Chair of Prostate Cancer Research at Queensland University of Technology (QUT). APCRC-Q, is one of the leading global research facilities investigating the connection between prostate cancer and dysregulated metabolic hormones and pathways, and how these affect prostate cancer progression and metastasis. "The downstream effects of obesity change the tumor microenvironment in ways highly favorable to prostate cancer recurrence, progression and metastasis. Hyperleptinemia and hyperinsulinemia are well-established, negative side effects of androgen deprivation therapy (ADT) and other treatments that block the androgen axis in prostate cancer. The APCRC-Q has been investigating this relationship using targeted drugs in preclinical models that inhibit metabolic pathways induced by ADT, through tumor promoting pathways activated systemically, and through direct tumor cell adaptation," said Colleen Nelson, PhD, lead investigator. "We’re very excited to study SynDevRx’s SDX-7320 inhibition of MetAP2 in our well-vetted models of treatment resistant advanced prostate cancer models."

The APCRC-Q team’s research focuses on pathways activated by ADT, including alterations in metabolism that are druggable with novel targeted agents. They recently showed that pharmacological blockade of leptin receptor or the activation of adiponectin signaling was efficacious in significantly reducing tumor burden and in delaying progression to castration resistance in animal models. The APCRC-Q team has also been targeting metabolic pathways directly through mitochondrial activity or lipid synthesis in models of CRCP and ENZ resistance.

"Professor Nelson team’s work has clearly demonstrated the central role that leptin and adiponectin play in the feedback loop of androgen deprivation and results in the emergence of treatment resistance," said Peter Cornelius, PhD, senior director of translational research at SynDevRx. "Her lab has some of the best models for studying the deleterious effects of inhibition of the androgen receptor axis in prostate cancer, identifying mechanisms of resistance and then targeting those proteins driving the resistance in pre-clinical prostate cancer models. Given our clinical results showing evexomostat (SDX-7320) significantly lowers leptin and increases adiponectin in late-stage cancer patients, we’re thrilled to work with Professor Nelson and her expert team on testing the potential beneficial effects that SDX-7320/MetAP2 inhibition could play in these validated models."

"SynDevRx is establishing global collaborations with leading research institutions focused on the downstream effects that obesity and dysregulated metabolic hormones have on cancer progression and metastasis. We invite other researchers to work with us as we untangle these complex and critical interactions between cancer and dysregulated metabolic hormones," said SynDevRx’s co-founder and Chief Business Officer James Shanahan.

(Proietto et al., Diabetologia 2018 Sep;61(9):1918-1922)
(Mann-Steinberg et al., "TNP-470: The Resurrection of the First Synthetic Angiogenesis Inhibitor." (2008).)
About SDX-7320

SynDevRx believes that evexomostat (SDX-7320) is the first drug being developed specifically for cancer patients with metabolic complications, such as obesity, diabetes, high blood glucose or HbA1c, pre-diabetes or insulin/leptin resistance. For certain tumor types, metabolic hormones stimulate oncogenic pathways, making the cancer more aggressive and deadlier. Evexomostat acts by binding irreversibly to its target enzyme MetAP2, triggering downstream improvements in the metabolic hormones insulin, leptin and adiponectin, improvements in key lipids, and inhibition of the important angiogenic proteins bFGF and VEGF-C, as was demonstrated in a Phase 1 clinical study in late-stage cancer patients. In preclinical studies, evexomostat also directly inhibited multiple cell cycle signaling pathways, provided synergistic anti-tumor effects in combination with a PI3K inhibitor, reduced angiogenesis, controlled aberrant metabolic hormone signaling, and reversed obesity-induced immune suppression within the tumor micro-environment of tumor-bearing obese mice. Evexomostat (SDX-7320) is being developed for use in combination with clinically indicated standard-of-care cancer therapies for breast and prostate cancers.