On June 10, 2022 Keros Therapeutics, Inc. ("Keros" or the "Company") (Nasdaq: KROS), a clinical-stage biopharmaceutical company focused on the discovery, development and commercialization of novel treatments for patients suffering from hematological and musculoskeletal disorders with high unmet medical need, reported that it presented additional data from its ongoing Phase 2 clinical trial of KER-050 in patients with very low-, low-, or intermediate-risk myelodysplastic syndromes ("MDS"), as well as preclinical data on the differentiated mechanism of action of KER-050 and its activity on multiple stages of thrombopoiesis, at the 27th Annual Congress of the European Hematology Association (EHA) (Free EHA Whitepaper) ("EHA"), held in person and virtually June 9 through 17, 2022 (Press release, Keros Therapeutics, JUN 10, 2022, View Source [SID1234615851]). In addition, Keros announced preclinical data evaluating ALK2 inhibition as a potential treatment option for anemia of inflammation.

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"We believe the additional data from our ongoing Phase 2 clinical trial of KER-050 in MDS patients continues to support the potential of KER-050 as a treatment for multilineage cytopenias, and are pleased to present at EHA (Free EHA Whitepaper) this year," said Jasbir S. Seehra, Ph.D., President and Chief Executive Officer of Keros. "Additionally, we are excited to announce that we have recently initiated dosing for Part 2 of the trial, at a starting dose of 3.75 mg/kg, with an opportunity for patients to dose escalate to 5.0 mg/kg based on individual titration rules, following the Safety Review Committee recommendation for this trial."

Clinical Presentation

A Phase 2, open-label, ascending dose study of KER-050 for the treatment of anemia in patients with very low, low, or intermediate risk myelodysplastic syndromes
This ongoing, open-label, two-part, multiple ascending dose Phase 2 clinical trial is evaluating KER-050 in participants with very low-, low-, or intermediate-risk MDS who either have or have not previously received treatment with an erythroid stimulating agent ("ESA"). Enrollment for Part 1 was balanced approximately one-to-one between patients that did not have ring sideroblasts ("non-RS") and patients that have ring sideroblasts ("RS positive"). Patients received KER-050 subcutaneously every 28 days for up to four cycles during Part 1 of the trial, at the following dose levels: Cohort 1, 0.75 mg/kg; Cohort 2, 1.5 mg/kg; Cohort 3, 2.5 mg/kg; Cohort 4, 3.75 mg/kg; and Cohort 5, 5.0 mg/kg.

As of April 3, 2022 (the "data cut-off date"), 31 patients in Cohorts 1 through 5 had received at least one dose of KER-050. Of these, 27 patients in Cohorts 1 through 5 had completed eight weeks of treatment and evaluation as of the data cut-off date (the "evaluable patients"). The 27 evaluable patients were comprised of five non-transfused ("NT"), six low transfusion burden ("LTB"), and 16 high transfusion burden ("HTB") patients. Two of the transfused LTB patients required <2 red blood cell ("RBC") units at baseline. Of the 20 LTB and HTB patients that required ≥2 RBC units at baseline, eight were non-RS and 12 were RS positive.

As of the data cut-off date, 51.9% (n=14/27) of the evaluable patients achieved an overall erythroid response, which is defined as meeting one of the following two endpoints:

IWG 2006 Hematological improvement-erythroid ("HI-E"), which is defined as either:
a ≥ 1.5 g/dL increase in hemoglobin for eight weeks in LTB and NT patients; or
a reduction by ≥ 4 RBC units transfused during any eight-week period during the trial, compared with the eight-week period prior to Cycle 1, Day 1 in HTB patients.
Transfusion independence ("TI") for at least eight weeks in transfusion-dependent patients who required ≥ 2 RBC units transfused at baseline.
Additional data from the evaluable patients in Cohorts 1 through 5 of the trial, as of the data cut-off date, include:

46.2% (n=12/26) of the evaluable population achieved HI-E over an eight-week period.
45.0% (n=9/20) of the transfused patients receiving ≥ 2 RBC units at baseline achieved TI for at least eight weeks. Of these 20 patients, 12 were RS positive and eight were non-RS.
50.0% (n=6/12) of these RS positive patients achieved TI for at least eight weeks.
37.5% (n=3/8) of these non-RS patients achieved TI for at least eight weeks.
43.8% (n=7/16) of the HTB patients achieved TI for at least 8 weeks.
In addition, sustained increases in platelets were observed in HTB patients achieving HI-E or TI, which supports the potential of KER-050 as a treatment for multilineage cytopenias in difficult-to-treat HTB patients. Increases in reticulocytes and serum soluble transferrin receptor levels, as well as decreases in serum ferritin, were also observed in HTB patients. Together, these exploratory pharmacodynamic data suggest an improvement in erythropoiesis.

As of the data cut-off date, KER-050 was observed to be generally well-tolerated in the 31 patients in Cohorts 1 through 5 who had received at least one dose of KER-050. No drug-related serious adverse events or dose-limiting toxicities were reported. The most commonly reported treatment-emergent adverse events were dyspnea, fatigue, anemia, diarrhea, headache and nausea. Treatment-related adverse events were reported in five patients, which were mild or moderate in severity. No patients developed acute myeloid leukemia. Four patients withdrew from the trial prior to completing treatment with KER-050, one due to death deemed unrelated to study drug, one due to withdrawn consent and two due to unrelated treatment-emergent adverse events.

Following recommendation by the Safety Review Committee, dosing for Part 2 of the trial was initiated at a starting dose of 3.75 mg/kg, with an opportunity for patients to dose escalate to 5.0 mg/kg based on individual titration rules.

Preclinical Presentations

RKER-050, a novel inhibitor of TGF-β superfamily signaling, induced platelet production in healthy mouse megakaryocytes
Administration of a research form of KER-050 ("RKER-050") increased differentiation of early- and late-stage megakaryocyte precursors and increased platelet count:

Healthy mice treated with a single 10 mg/kg dose of RKER-050 had an increase in platelet numbers at 12 hours, 37 days and 51 days after administration compared to vehicle-treated mice (p ≤0.001, p ≤0.05 and p ≤0.01, respectively). At 14 days and 91 days after administration, counts normalized back to vehicle control levels, demonstrating a phasic response on thrombopoiesis. Taken together, these data suggest that RKER-050 may be affecting thrombopoiesis at multiple stages, including platelet formation and megakaryocyte progenitor renewal.
Keros also analyzed CD41+ cells, which are megakaryocyte precursors, from the bone marrow of healthy mice at 12 hours post-treatment in order to investigate the potential effects of RKER-050 on early stages of thrombopoiesis. An increase in the CD41+ cells was observed compared to vehicle-treated mice (p ≤0.01), as well as an increase in higher levels of ploidy at 24 hours post-treatment, indicating that RKER-050 increased differentiation of megakaryocyte precursors towards the later stages of maturation.
Keros also demonstrated that inhibition of activin A with a neutralizing antibody increased production of platelets. Similarly, treatment with RKER-050 increased platelet production. These data are consistent with these treatments acting to inhibit negative regulators of thrombopoiesis and shift the balance towards increased bone morphogenic protein ("BMP") signaling which promotes thrombopoiesis. These data support that RKER-050 promoted megakaryocyte maturation potentially by blocking inhibitory transforming growth factor-beta ("TGF-β") ligands, such as activin A, in this preclinical model.
Overall, these data support that KER-050 has the potential to treat thrombocytopenia, including in patients with MDS and myelofibrosis.

ALK2 inhibition lowered hepcidin and liberated spleen iron for erythropoiesis in anemia of inflammation
Hepcidin, the key regulator of iron absorption and recycling, can be regulated by the BMP-SMAD and IL-6-STAT3 signaling pathways in normal and inflammatory conditions. To understand whether and how ALK2 inhibition decreases hepcidin in inflammation, healthy mice were dosed with 3 mg/kg KTI-m216, an investigational neutralizing antibody to the ALK2 receptor, or vehicle for one hour, followed by a 1 mg/kg dose of lipopolysaccharide ("LPS") or phosphate buffered saline ("PBS") for six hours. Serum IL-6 was induced in the vehicle-LPS and KTI-m216-LPS mice, compared to respective PBS controls, indicating that a model of acute inflammation was induced.

Serum hepcidin was increased by LPS to a similar extent in the vehicle- and KTI-m216-treated mice, compared to the respective vehicle-PBS and KTI-m216-PBS controls. However, KTI-m216-LPS mice had a 69% reduction in absolute serum hepcidin compared to vehicle-LPS controls. These data indicate that KTI-m216 inhibited the BMP-SMAD signaling in this preclinical model and is potentially sufficient for hepcidin reduction in inflammation.

To induce a model of chronic kidney disease ("CKD"), mice were fed a diet containing 0.2% adenine and 40 ppm iron for six to seven weeks. CKD mice developed characteristics of anemia of inflammation ("AI"), including decreased hemoglobin, increased serum IL-6 and hepcidin, decreased serum iron and increased tissue iron retention, compared to mice on a control diet. After AI was confirmed, CKD mice received twice weekly treatment with 3 mg/kg of KTI-m218, an investigational neutralizing antibody to the ALK2 receptor, or vehicle for three weeks, while continuing the adenine diet. In a separate experiment, the CKD mice received twice weekly treatment with 3 mg/kg of KTI-m218 or vehicle for nine days, while on an adenine diet with 3 ppm iron.

KTI-m218-treated CKD mice on the continued adenine and 40 ppm iron diet exhibited a reversal of the CKD-related changes, including decreased serum hepcidin, increased serum iron, reduction in spleen iron and increased hemoglobin compared to vehicle-treated CKD mice. Similar responses were observed in the KTI-m218-treated CKD mice on the adenine and 3 ppm iron diet, which supports that the increased iron in KTI-m218-treated CKD mice was mostly from the spleen, rather than diet.

These data suggest that ALK2 inhibition-mediated hepcidin suppression was sufficient to improve erythropoiesis by liberating iron from the recycling pathway in a mouse model of AI. Accordingly, Keros believes that targeting ALK2 inhibition could potentially treat anemia resulting from CKD and other acute and chronic inflammatory diseases.

About the Ongoing Phase 2 Clinical Trial of KER-050 in Patients with MDS

Keros is conducting an open label, two-part, multiple ascending dose Phase 2 clinical trial to evaluate KER-050 in participants with very low-, low-, or intermediate-risk MDS who either have or have not previously received treatment with an ESA.

The primary objective of this trial is to assess the safety and tolerability of KER-050 in participants with MDS that are RS positive or non-RS. Confirmation of the safety and tolerability of the selected dose levels is the primary objective of Part 2 of this trial. The secondary objectives of this trial are to evaluate the pharmacokinetics, pharmacodynamics and efficacy of KER-050. Keros expects to report additional data from this trial by the end of 2022.

Conference Call and Webcast Information

The Company will host a conference call and webcast today, June 10, 2022, at 8:00 a.m. Eastern time, to discuss the additional results from the ongoing Phase 2 clinical trial of KER-050 presented at the 27th Annual Congress of EHA (Free EHA Whitepaper).

The conference call will be webcast live at View Source;tp_key=c785623d12. The live teleconference may be accessed by dialing (877) 405-1224 (domestic) or (201) 389-0848 (international). An archived version of the call will be available in the Investors section of the Keros website at View Source for 90 days following the conclusion of the call.

About KER-050

Keros’ lead protein therapeutic product candidate, KER-050, is an engineered ligand trap comprised of a modified ligand-binding domain of the transforming growth factor-beta receptor known as activin receptor type IIA that is fused to the portion of the human antibody known as the Fc domain. KER-050 is being developed for the treatment of low blood cell counts, or cytopenias, including anemia and thrombocytopenia, in patients with myelodysplastic syndromes, or MDS, and in patients with myelofibrosis.

On June 9, 2022 Ancora Biotech reported Lightspeed Venture Partners and S.R. One have co-led a $60million series A round for Ancora Biotech LLC, which housesthree bispecific antibodies spun out from TeneoBio Inc (Press release, Ancora Biotech, JUN 9, 2022, View Source [SID1234618882]). Ancora will advance TNB-486, a bispecific T cell engagertargeting CD19 and CD3 that is in Phase I testing for B cellcancers; TNB-738, an anti-CD38 enzyme inhibitor formetabolic disorders currently in a study in healthy volunteers;and an HBsAg x CD3 bispecific for HBV. Amgen Inc.(NASDAQ:AMGN) paid $900 million up front for TeneoBiolast year. AbbVie Inc. (NYSE:ABBV) had previously boughtanother of the asset-focused biotech’s programs.

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On June 9, 2022 Anaveon, a clinical-stage immuno-oncology company, reported that the U.S. Food and Drug Administration (FDA) has cleared the IND application for ANV419-101, a Phase I/II mono treatment dose confirmation and combination dose-finding, global study, in patients with advanced cutaneous melanoma (Press release, Anaveon, JUN 9, 2022, View Source [SID1234616639]).

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ANV419, a potent IL-2Rbg agonist, preferentially proliferates CD8 and NK cells over regulatory T cells. The safety profile seen to date will allow for the administration of doses inducing maximal pharmacodynamic effects. The most frequent drug related AEs seen in an ongoing trial include mild Grade 1 chills and low-grade fever a few hours after dosing, which resolved with antipyretic treatment.

"We are excited to bring ANV419 to patients who are most likely to benefit from a truly IL-2Rbg-selective high-dose IL-2 approach," said Christoph Bucher, Chief Medical Officer at Anaveon. "We look forward to expanding our clinical program to the US and maximizing the therapeutic potential of ANV419 for patients suffering from cancer."

About the Phase I/II Clinical Trial

The clinical trial is a Phase I/II multiple arm, open-label study in patients with unresectable or metastatic cutaneous melanoma. The study will be a sequential, multi-part clinical trial to evaluate the safety and efficacy of different monotherapy doses of ANV419, as well as in combination with anti-PD1 or anti-CTLA4. Up to 130 patients will be enrolled in the clinical trial.

On June 9, 2022 EXACT Therapeutics AS ("EXACT-Tx", "the Company" Euronext Growth: EXTX) reported a share capital increase in connection with the Company’s restricted stock unit (RSU) programme (Press release, Exact Therapeutics, JUN 9, 2022, View Source [SID1234616526]).

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Anders Wold, Chair of EXACT-Tx, has subscribed for 2,414 shares at NOK 19.00 per share. Following this transaction, Anders Wold will hold 2,414 shares in EXACT-Tx.

On June 9, 2022 Roche (SIX: RO, ROG; OTCQX: RHHBY) reported that the European Commission has approved Tecentriq (atezolizumab) as an adjuvant treatment, following complete resection and platinum-based chemotherapy, for adults with non-small cell lung cancer (NSCLC) with a high risk of recurrence* whose tumours express PD-L1≥50% and who do not have EGFR mutant or ALK-positive NSCLC (Press release, Hoffmann-La Roche, JUN 9, 2022, View Source [SID1234616238]).

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"Today’s approval represents an important advance, as Tecentriq becomes the first cancer immunotherapy approved in Europe for the treatment of certain types of early-stage NSCLC," said Levi Garraway, M.D., Ph.D., Roche’s Chief Medical Officer and Head of Global Product Development. "Since approximately half of all people with early NSCLC develop recurrence after surgery, which in some cases is no longer curable, treating this cancer at an earlier stage offers the best chance to prevent recurrence."

This approval is based on results from an interim analysis of the Phase III IMpower010 study. The results showed treatment with Tecentriq, following complete resection and platinum-based chemotherapy, reduced the risk of disease recurrence or death (DFS) by 57% (hazard ratio [HR]=0.43, 95% CI: 0.26-0.71)** in people with resected Stage II-IIIA NSCLC (UICC/AJCC 7th edition) whose tumours express PD-L1≥50%, who do not have EGFR mutant or ALK-positive NSCLC, compared with best supportive care (BSC).1 A DFS benefit was consistently seen across most subgroups including histology or stage of disease with adjuvant Tecentriq, compared with BSC. Overall survival (OS) data for patients with PD-L1 high resected Stage II-III NSCLC, and who do not have EGFR mutant or ALK-positive disease are immature and were not formally tested at the DFS interim analysis, however, a trend towards OS improvement with Tecentriq was seen, with a stratified HR of 0.39 (95% CI: 0.18-0.82).2

Follow-up will continue with planned analyses of more mature OS data later this year. Safety data for Tecentriq were consistent with its known safety profile and no new safety signals were identified.1

"Today’s approval now offers patients in Europe, whose tumours express high levels of PD-L1, the opportunity to reduce their risk of disease recurrence following surgery and chemotherapy," said Professor Enriqueta Felip, Head of the Thoracic Cancer Unit at Vall d’Hebron Institute of Oncology, Barcelona, Spain. "This milestone reinforces the need for biomarker testing at diagnosis for all people with NSCLC, irrespective of disease stage, to ensure they receive optimal treatment."

To date, Tecentriq has been approved in 19 countries, including the US and China, as adjuvant treatment, following complete resection and chemotherapy, for adults with Stage II-IIIA NSCLC (UICC/AJCC 7th edition) whose tumours express PD-L1≥1%. In three countries, including Canada and the UK, Tecentriq has been approved as adjuvant, treatment following complete resection and chemotherapy, for adult patients with Stage II-IIIA NSCLC (UICC/AJCC 7th edition) whose tumours have PD-L1 expression on ≥50% of tumour cells.

Tecentriq has shown clinically meaningful benefit in various types of lung cancer, with six currently approved indications in countries around the world. It was the first approved cancer immunotherapy for the first-line treatment of adults with extensive-stage small cell lung cancer (SCLC) in combination with carboplatin and etoposide (chemotherapy). Tecentriq also has four approved indications in advanced or metastatic NSCLC as either a single agent or in combination with targeted therapies and/or chemotherapies. Tecentriq is available in three dosing options, providing the flexibility to choose administration every two, three or four weeks.

Roche has an extensive development programme for Tecentriq including multiple ongoing and planned Phase III studies across lung, genitourinary, skin, breast, gastrointestinal, gynaecological, and head and neck cancers. This includes studies evaluating Tecentriq both alone and in combination with other medicines, as well as studies in metastatic, adjuvant and neoadjuvant settings across various tumour types.

About the IMpower010 study
IMpower010 is a Phase III, global, multicentre, open-label, randomised study evaluating the efficacy and safety of Tecentriq compared with BSC, in participants with Stage IB-IIIA NSCLC (UICC/AJCC 7th edition), following surgical resection and up to 4 cycles of adjuvant cisplatin-based chemotherapy. The study randomised 1,005 people with a ratio of 1:1 to receive either Tecentriq (up to 16 cycles) or BSC. The primary endpoint is investigator-determined DFS in the PD-L1-positive Stage II-IIIA, all randomised Stage II-IIIA and intention-to-treat (ITT) Stage IB-IIIA populations. Key secondary endpoints include overall survival in the overall study population, ITT Stage IB-IIIA NSCLC.

About lung cancer
Lung cancer is one of the leading causes of cancer death globally.3 Each year 1.8 million people die as a result of the disease; this translates into more than 4,900 deaths worldwide every day.3 Lung cancer can be broadly divided into two major types: NSCLC and SCLC. NSCLC is the most prevalent type, accounting for around 85% of all cases.4 Approximately 50% of patients with NSCLC are diagnosed with early-stage (Stages I and II) or locally advanced (Stage III) disease.4 Today, about half of all people with early lung cancer still experience a cancer recurrence following surgery.5 Treating lung cancer early, before it has spread, may help prevent the disease from returning and provide people with the best opportunity for a cure.

About Tecentriq
Tecentriq is a cancer immunotherapy approved for some of the most aggressive and difficult-to-treat forms of cancer. Tecentriq was the first cancer immunotherapy approved for the treatment of a certain type of early-stage non-small cell lung cancer (NSCLC), small cell lung cancer (SCLC) and hepatocellular carcinoma (HCC). Tecentriq is also approved in countries around the world, either alone or in combination with targeted therapies and/or chemotherapies, for various forms of metastatic NSCLC, certain types of metastatic urothelial cancer, PD-L1-positive metastatic triple-negative breast cancer and BRAF V600 mutation-positive advanced melanoma.

Tecentriq is a monoclonal antibody designed to bind with a protein called programmed death ligand-1 (PD-L1), which is expressed on tumour cells and tumour-infiltrating immune cells, blocking its interactions with both PD-1 and B7.1 receptors. By inhibiting PD-L1, Tecentriq may enable the activation of T-cells. Tecentriq is a cancer immunotherapy that has the potential to be used as a foundational combination partner with other immunotherapies, targeted medicines and various chemotherapies across a broad range of cancers. In addition to intravenous infusion, the formulation of Tecentriq is also being investigated as a subcutaneous injection to help address the growing burden of cancer treatment for patients and healthcare systems.

About Roche in lung cancer
Lung cancer is a major area of focus and investment for Roche, and we are committed to developing new approaches, medicines and tests that can help people with this deadly disease. Our goal is to provide an effective treatment option for every person diagnosed with lung cancer. We currently have six approved medicines to treat certain kinds of lung cancer and more than ten medicines being developed to target the most common genetic drivers of lung cancer or to boost the immune system to combat the disease.

About Roche in cancer immunotherapy
Roche’s rigorous pursuit of groundbreaking science has contributed to major therapeutic and diagnostic advances in oncology over the last 50 years, and today, realising the full potential of cancer immunotherapy is a major area of focus. With over 20 molecules in development, Roche is investigating the potential benefits of immunotherapy alone, and in combination with chemotherapy, targeted therapies or other immunotherapies with the goal of providing each person with a treatment tailored to harness their own unique immune system to attack their cancer. Our scientific expertise, coupled with an innovative pipeline and extensive partnerships, gives us the confidence to continue pursuing the vision of finding a cure for cancer by ensuring the right treatment for the right patient at the right time.