On January 8, 2020 Molecular Templates, Inc., (Nasdaq: MTEM) a clinical-stage biopharmaceutical company focused on the discovery and development of the Company’s proprietary targeted biologic therapeutics, engineered toxin bodies (ETBs), reported that provided a corporate update and outlined expected 2020 milestones (Press release, Molecular Templates, JAN 8, 2020, View Source [SID1234552841]).

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"2019 was a year of growth for MTEM as we advanced our pipeline programs, established a new collaboration outside of oncology with a premier partner, and strengthened our balance sheet with a successful equity financing," said Eric Poma, Ph.D., Chief Executive and Chief Scientific Officer of Molecular Templates. "As we start 2020, we look forward to generating clinical data from three ongoing Phase 2 studies with MT-3724, an ongoing Phase 1 study for MT-5111, and a Phase 1 study with TAK-169. We expect to file an IND in 2H20 for MT-6402, our PD-L1-targeted ETB with antigen seeding capabilities, and we will continue to advance our earlier stage pipeline while making progress with our existing collaborations."

2019 Accomplishments, Status Updates, and Expected 2020 Milestones

MT-3724 (CD20 ETB)

Candidate description
MT-3724 is a 1st generation ETB that utilizes wild-type Shiga-like toxin A (SLTA) genetically fused to an scFv to CD20 to bind, induce internalization, and destroy CD20-expressing tumor cells through ribosomal inactivation.
2019 accomplishments
In 2019, MTEM presented final results of the Phase 1/1b monotherapy study in lymphoma patients and initiated three Phase 2 studies in diffuse large B-cell lymphoma (DLBCL); a monotherapy study that has the potential to be pivotal and two combination studies, one with lenalidomide and the other with gemcitabine/oxaliplatin (GemOx).
The final Phase 1/1b results presented at the American Society of Hematology (ASH) (Free ASH Whitepaper) annual meeting included safety data on doses from 5-100 μg/kg, and efficacy data on 13 serum rituximab negative (RTX-neg) DLBCL or mixed DLBCL/FL subjects of whom 5 responded (38% objective response rate) across the range of 5 to 50 μg/kg doses. Of the 5 responses, 2 were complete responses (CRs) and 3 were partial responses (PRs). Three patients had stable disease (including 2 patients with 49% and 47% tumor reductions) and 5 patients had progressive disease. Of the 5 serum RTX-neg subjects with DLBCL who received MT-3724 at 50 μg/kg, the maximum tolerated dose (MTD), 3 responded (2 CRs, 1 PR).
The combination study with lenalidomide has demonstrated preliminary evidence of tolerability and efficacy with lenalidomide at standard doses and MT-3724 at 10 μg/kg. MT-3724 dosing at 25 μg/kg with lenalidomide is ongoing.
The combination study with GemOx has demonstrated preliminary evidence of efficacy but grade 2 innate immune adverse effects were seen with standard doses of gemcitabine and oxaliplatin and 10 μg/kg doses of MT-3724. The study protocol has been amended to include a revised schedule where MT-3724 dosing is initially sequenced with GemOx dosing.
Status updates and expected 2020 milestones
The potentially pivotal Phase 2 monotherapy DLBCL study is ongoing and is planned to enroll up to 100 patients. MTEM expects to announce updates on interim clinical results from this study and the ongoing lenalidomide and GemOx combination studies throughout 2020.
MT-5111 (HER2 ETB)

Candidate description
MT-5111 is a 2nd generation ETB technology that utilizes a genetically engineered de-immunized Shiga-like toxin A-subunit (SLTA) to reduce the potential for innate and adaptive immunogenicity. MT-5111 directly kills HER2-positive cells via ribosomal inactivation, a mechanism wholly distinct from approved HER2 targeted agents.
MT-5111 binds HER2 in the presence of trastuzumab and pertuzumab, creating the possibility of combining MT-5111 with other HER2 antibody-based agents.
MT-5111 is 55 kDa, almost a third smaller than traditional antibody and antibody drug conjugate (ADC) therapies, and, because of its smaller size, may have superior tumor penetration.
2019 accomplishments
In 2019, the IND for MT-5111 was accepted by the FDA and MTEM initiated a Phase 1 study, for which dosing began in 4Q19. MTEM also presented preclinical data on MT-5111 at the San Antonio Breast Cancer Symposium (SABCS).
Status update and expected 2020 milestones
The Phase 1 study is ongoing with multiple sites open for enrollment. MTEM expects to announce interim clinical results from this study in 2Q20 and additional data from the dose escalation portion of the study in 4Q20.
TAK-169 (CD38 ETB)

Candidate description
TAK-169 is a 2nd generation ETB that utilizes a genetically engineered de-immunized Shiga-like toxin A-subunit (SLTA) to reduce the potential for innate and adaptive immunogenicity. TAK-169 targets CD38, a poorly internalizing receptor expressed on myeloma cells, and directly kills CD38-expressing tumor cells via ribosomal inactivation.
Data in non-human primates suggest that TAK-169 can be dosed at higher doses than MT-3724 with a markedly reduced propensity of innate immune response compared with MT-3724.
Preclinical data suggest that TAK-169 retains activity in the presence of daratumumab, an approved CD38 antibody.
2019 accomplishments
In 2019, MTEM and partner Takeda presented preclinical data on TAK-169 at the American Association of Cancer Research (AACR) (Free AACR Whitepaper) annual meeting, the IND for TAK-169 was accepted by the FDA, and Takeda initiated a Phase 1 study in relapsed/refractory multiple myeloma in 4Q19. In December 2019, TAK-169 received Orphan Drug Designation from the FDA.
Status update
Multiple sites are open for enrollment.
MT-6402 (PD-L1 ETB)

Candidate description
MT-6402 is a 3rd generation ETB that targets PD-L1, a poorly internalizing receptor expressed on various solid tumors. MT-6402 shares the de-immunized scaffold used with 2nd-generation ETBs and is further engineered to deliver a viral foreign class I peptide (antigen seeding) to alter the tumor immunophenotype.
MT-6402 utilizes Antigen Seeding Technology to deliver a foreign class I antigen derived from cytomegalovirus (CMV) inside the tumor for presentation on the tumor cell surface in complex with MHC class I molecules. MTEM has shown that antigen seeding allows CMV-reactive T-cells to recognize and destroy tumor cells. This T-cell response provides a mechanism of cell kill that is complementary to the ribosomal inactivation caused by the SLTA.
2019 accomplishments
In 2019, MTEM presented preclinical data on its PD-L1 targeted ETBs at the AACR (Free AACR Whitepaper) and Society for Immunotherapy of Cancer (SITC) (Free SITC Whitepaper) annual meetings demonstrating potent anti-tumor effects on PD-L1+ tumor cells, good safety and pronounced pharmacodynamic effects in non-human primates, and a unique ability to alter the immunophenotype of tumors cells through antigen seeding.
Status update and expected 2020 milestones
An IND is expected to be filed and the Phase 1 study for MT-6402 is expected to be initiated in 2H20.
Earlier stage pipeline

Status update and expected 2020 milestones
MTEM continues to work on discovery of new ETBs against targets including CTLA-4, SLAMF-7, and CD45.
In 2020, MTEM expects to present preclinical data on new targets and new ETBs at conferences.
Corporate and Business Development

2019 accomplishments
On November 18, 2019, MTEM and Vertex Pharmaceuticals announced a strategic research collaboration to discover and develop novel targeted conditioning regimens that may enhance the hematopoietic stem cell transplant process, including transplants conducted as part of treatment with ex vivo CRISPR/Cas9 gene editing therapies such as CTX001. Under the collaboration, MTEM will conduct research activities for the use of ETBs for up to two targets selected by Vertex. The initial research will be focused on discovering a novel conditioning regimen using MTEM’s ETB technology platform. In addition, Vertex has an option to select a second target as part of the collaboration. Vertex made an up-front payment of $38 million to MTEM, including an equity investment. MTEM is also eligible to receive future development, regulatory and sales milestones and option payments of up to $522 million (across two targets) and tiered royalty payments on future sales.
On November 21, 2019, MTEM announced the pricing of an underwritten equity offering, the net proceeds of which were approximately $53.3 million, after deducting underwriting discounts and commissions and other estimated offering expenses payable by MTEM.
Status update and expected 2020 milestones
MTEM has three ongoing collaborations: the co-development collaboration with Takeda for TAK-169, the multi-target collaboration with Takeda for the discovery and development of new ETBs against two undisclosed oncology targets, and the multi-target collaboration with Vertex for the discovery and development of new conditioning regimens. All three of these collaborations are expected to advance in 2020.

On January 8, 2020 Verastem, Inc. (Nasdaq:VSTM) (Verastem Oncology or the Company), a biopharmaceutical company focused on developing and commercializing medicines seeking to improve the survival and quality of life of cancer patients, reported a global licensing agreement with Chugai Pharmaceutical Co., Ltd., (Chugai) whereby Verastem Oncology is obtaining worldwide development and commercialization rights to the RAF/MEK inhibitor CH5126766 (CKI27) from Chugai currently under development for the treatment of KRAS mutant solid tumors (Press release, Verastem, JAN 8, 2020, View Source [SID1234552858]). The Company will host an investor call to discuss the opportunity and a development update today (details below).

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CH5126766 in combination with Verastem Oncology’s focal adhesion kinase (FAK) inhibitor, defactinib, is currently the subject of a clinical study (Phase I followed by expansion cohorts) with the expansion cohorts now ongoing in patients with KRAS mutant advanced solid tumors, including low grade serous ovarian cancer (LGSOC), non-small cell lung cancer (NSCLC) and colorectal cancer (CRC).1 This clinical study of the defactinib/CH5126766 combination is supported by the single-agent Phase 2 studies of defactinib in KRAS mutant NSCLC2 and CH5126766 in KRAS mutant NSCLC and LGSOC.3

"Based on the single-agent defactinib results in KRAS mutant NSCLC, we conducted an internal pre-clinical effort to identify drug classes that were synergistic with defactinib and saw the highest level of synergy in combination with MEK inhibitors and, specifically, with CH5126766," said Dan Paterson, President and Chief Operating Officer of Verastem Oncology. "The exciting early clinical results led to our decision to enter into a partnership with Chugai for CH5126766 and accelerate the combination development program for patients with KRAS mutant cancers, which are highly aggressive and recurrent. We plan to initiate discussions with regulatory authorities about our development plans and to define the registration path early this year."

"We found that MEK blockade activates FAK signaling as a potential escape mechanism," stated Professor Udai Banerji, Professor of Molecular Cancer Pharmacology at The Institute of Cancer Research and Honorary Consultant in Medical Oncology, MBBS, MD, DNB, PhD, FRCP at The Royal Marsden NHS Foundation Trust, London, England, and lead investigator of the clinical study. "Based on the synergy between FAK and MEK inhibitors observed in preclinical KRAS mutant models, we have been assessing the combination of defactinib and CH5126766 for treatment of patients with KRAS mutant cancers. The results to date have been encouraging and we look forward to sharing our clinical findings, including the response rate in an upcoming scientific presentation."

"CH5126766 is a unique and particularly promising inhibitor of the RAS/RAF/MEK signaling pathway," noted Neal Rosen, MD, PhD, Memorial Sloan Kettering Cancer Center, NY, NY. "In contrast to other MEK inhibitors in development, CH5126766 blocks both MEK kinase activity and the ability of RAF to phosphorylate MEK. This unique mechanism allows CH5126766 to block MEK signaling without the compensatory activation of MEK that appears to limit the efficacy of other inhibitors. The clinical data with the combination of defactinib and CH5126766 are striking and suggest promise for patients with KRAS mutant solid tumors."

Under the terms of the agreement, Verastem Oncology is responsible for the development and worldwide commercialization of CH5126766. The Company will make an upfront payment of $3M and pay royalties to Chugai. Given the potential of the opportunity, the Company will be evaluating various partnering strategies.

Conference Call and Webcast Information

The Verastem Oncology management team will host a conference call and webcast on Wednesday, January 8, 2020, at 4:00 PM (ET). The call can be accessed by dialing (877) 341-5660 (U.S. and Canada) or (315) 625-3226 (international), five minutes prior to the start of the call and providing the passcode 3756707 and web PIN 1655.

The live, listen-only webcast of the conference call can be accessed by visiting the investors section of the Company’s website at View Source A replay of the webcast will be archived on the Company’s website for 90 days following the call.

About Defactinib

Defactinib is an oral small molecule inhibitor of FAK and PYK2 that is currently being evaluated as a potential combination therapy for various solid tumors. The Company has received orphan drug designation for defactinib in ovarian cancer and mesothelioma in the US, EU and Australia. Preclinical research by Verastem Oncology scientists and collaborators at world-renowned research institutions has described the effect of FAK inhibition to enhance immune response by decreasing immuno-suppressive cells, increasing cytotoxic T cells, and reducing stromal density, which allows tumor-killing immune cells to enter the tumor.4,5 A Phase 1/2 clinical trial of defactinib in combination with CH5126766 in patients with KRAS mutant advanced solid tumors, including low grade serous ovarian cancer (LGSOC), non-small cell lung cancer (NSCLC) and colorectal cancer (CRC) is underway.1 The defactinib/CH5126766 combination is supported by the single-agent Phase 2 studies of defactinib in KRAS mutant NSCLC2 and CH5126766 in KRAS mutant NSCLC and LGSOC.3 Defactinib is also in clinical testing in combination with pembrolizumab for treatment of patients with pancreatic cancer, NSCLC and mesothelioma.6

On January 8, 2020 Medicenna Therapeutics Corp. ("Medicenna" or the "Company") (TSX: MDNA;OTCQB: MDNAF), a clinical stage immuno-oncology company, reported that it has received $1,345,871 from the early exercise of previously issued warrants (Press release, Medicenna Therapeutics, JAN 8, 2020, View Source [SID1234552875]). A total of 855,621 warrants were exercised, with exercise prices ranging from $1.20-$2.00. The proceeds of the warrant exercises will be used towards the development of Medicenna’s long-acting IL-2 superkine (MDNA19) and for general and working capital purposes.

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"This early exercise of warrants is a clear indicator of the confidence that investors have in Medicenna and our short and long-term opportunities," says Fahar Merchant, President and Chief Executive Officer of Medicenna. "Combined with our recent oversubscribed financing, these funds provide us with a robust balance sheet that will see us through important upcoming milestones, including the completion of a full MDNA55 data set and subsequent meeting with the FDA, the ongoing advancement of our best-in-class IL-2 asset MDNA19 and our ongoing operations into 2021."

The exercises consist of 274,000 warrants priced at $1.20 and expiring December 21, 2023, 526,621 warrants priced at $1.75 and expiring October 17, 2022, 5,000 warrants priced at $1.20 and expiring December 21, 2020, 15,000 warrants priced at $1.30 and expiring October 17, 2021 and 35,000 warrants priced at $2.00 and expiring April 5, 2021. The number of issued and outstanding common shares following the exercises is 34,991,097.

On January 8, 2020 Avacta Group plc (AIM: AVCT), the developer of Affimer biotherapeutics and reagents, and Daewoong Pharmaceutical Co. Ltd., (KSX: 069620), a leading Korean pharmaceutical company, reported that they have agreed to establish a joint venture in South Korea, and to enter a collaboration and license agreement for the joint venture to develop the next generation of cell and gene therapies incorporating Affimer proteins to enhance the immune-modulatory effects (Press release, Avacta, JAN 8, 2020, View Source [SID1234612389]).

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Mesenchymal stem cells (MSCs) are promising agents for the treatment of autoimmune and inflammatory diseases. The joint venture will develop a new class of MSCs that are primed to produce Affimer proteins, which are designed to enhance the immune-modulatory effect when administered to patients, by reducing inflammatory or autoimmune responses.

Daewoong will provide the joint venture with access to its proprietary technology for generating allogeneic MSCs from a single donor to treat a large number of patients. This proprietary technology facilitates developing cell therapies as "off-the-shelf" products.

Avacta will develop Affimer proteins against several undisclosed targets which will be transferred to the joint venture to be incorporated into MSCs. The resulting engineered MSCs will have broad ranging therapeutic utility, depending on the Affimer proteins’ intended therapeutic purposes.

Avacta’s research and development costs will be fully covered by the joint venture and Avacta retains the rights to commercialise the Affimer proteins outside of the field of cell therapies. Avacta’s shareholding in the joint venture is 45% with Daewoong holding 55%, and the joint venture will be operationally managed by Seng-ho Jeon, CEO of Daewoong, with a Board composed of representatives of both Avacta (Alastair Smith, CEO and Matthew Vincent, VP Business Development and Strategy) and Daewoong.

"Our partnership reinforces the shared vision of both companies to design the next level of treatment paradigm, and to open up a new horizon in immunotherapeutic strategies", said Seng-ho Jeon. "This innovative collaboration will deliver invaluable synergy and lead to new solutions with the potential to transform patients’ lives."

"We are very excited to establish the joint venture with Daewoong, a world-class partner, combining our powerful Affimer platform with MSCs to develop breakthrough medicines targeting immune-mediated diseases", said Dr Alastair Smith, CEO of Avacta. "Affimer proteins have the potential to selectively modulate signalling pathways in inflammatory diseases in order to reduce the aberrant immune response occurring in those tissues, as well as positively impacting tissue regenerative pathways meant to repair and restore normal function to the affected tissues. We look forward to working closely with the Daewoong team to advance these promising therapeutics, and get them to the patients who need them."

On January 8, 2020 Veracyte (Nasdaq: VCYT) reported a multi-year partnership with Acerta Pharma, the hematology research and development arm of AstraZeneca (LSE/STO/NYSE: AZN), to provide genomic information that will support the biopharmaceutical company’s development of oncology therapeutics (Press release, Veracyte, JAN 8, 2020, View Source [SID1234552842]). Financial and other terms of the collaboration were not disclosed.

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The agreement marks Veracyte’s first biopharmaceutical partnership since the company announced its acquisition of the exclusive diagnostics rights to the NanoString nCounter platform and genomic tests in breast cancer and lymphoma on December 3, 2019. That transaction positions Veracyte to expand globally using a distributed platform and comprehensive menu of advanced genomic tests.

"We are excited to partner with Acerta Pharma and AstraZeneca, global leaders whose innovative medicines are benefitting millions of patients worldwide," said Bonnie H. Anderson, Veracyte’s chairman and chief executive officer. "This collaboration reflects the significant value we can bring to biopharmaceutical companies through our expanding global footprint, as well as our ability to potentially inform diagnosis and treatment decisions in new oncology indications."