Craig Alan Coburn

Bio: Craig Alan Coburn is an academic researcher. The author has contributed to research in topics: Chemokine & Innate immune system. The author has an hindex of 5, co-authored 8 publications receiving 70 citations.

Tumor targeting conjugates and methods of use thereof

Abstract: Various compositions are disclosed. The compositions of conjugates comprising immune-stimulatory compounds are also provided. Additionally provided are the methods of preparation and use of the conjugates. This includes methods for treating disorders, such as cancer.

Benzazepine compounds, conjugates, and uses thereof

Abstract: Benzazepine compounds, conjugates, and pharmaceutical compositions for use in the treatment of disease, such as cancer, are disclosed herein The disclosed benzazepine compounds are useful, among other things, in the treating of cancer and modulating TLR8 Additionally, benzazepine compounds incorporated into a conjugate with an antibody construct are described herein

Abstract 3271: A systemically administered, conditionally active TLR8 agonist for the treatment of HER2-expressing tumors

Abstract: Clinical development of systemically administered myeloid cell agonists has been hindered by acute toxicities due to peripheral activation of the targeted cell types. Intratumoral administration, the route of delivery typically used for innate immune/myeloid cell agonists, is limited by tumor accessibility and a dependence on abscopal responses. Here, we describe an example of a new composition class, termed ImmunoTAC, that allows for systemic delivery of an immune modulator with activity localized to tumor sites and secondary lymphoid structures. Agonism of TLR8 in human myeloid cells drives anti-tumor immunity by inducing direct macrophage killing of tumor cells, repolarizing suppressive myeloid cell populations to a pro-immunogenic phenotype, and inducing dendritic cells to drive tumor-specific CTL responses. SBT6050 is an ImmunoTAC comprised of a novel, potent TLR8 agonist conjugated to a HER2-directed monoclonal antibody. SBT6050 is designed to activate human monocytes and macrophages only in the presence of HER2pos tumor cells with moderate (2+ by IHC) or high (3+ by IHC) expression levels. This activity is dependent upon the ability of the Fc domain of the antibody to engage Fcγ receptors on the surface of the myeloid cells. Additionally, SBT6050 potently activates conventional dendritic cells that, in turn, drive a Th1/CTL program in T cells. Systemic delivery of a SBT6050 surrogate in mice shows robust single agent efficacy in tumor models intrinsically resistant to checkpoint blockade, such as the previously characterized HER2+ CT26 syngeneic model. The intratumoral immune response is characterized by robust activation of tumor-associated myeloid cells, infiltration of neutrophils, persistent increases in local cytokine and chemokine production, decreases in Treg infiltrate, and the generation of a potent, neo-Ag specific anti-tumor CTL response. Mice cured with single-agent treatment are resistant to tumor rechallenge, demonstrating induction of long-lived immunological memory. In contrast to observations with small molecule TLR8 agonists, ImmunoTAC does not induce peripheral cytokine production or associated CRS-like toxicity in mice, consistent with the localized activity of the molecule. Silverback’s lead candidate, SBT6050, is currently in preclinical development for patients with moderate or high HER2-expressing tumors. More broadly, the data presented here describe a novel therapeutic modality that allows for systemic administration of immune modulators with tissue-localized activity. Citation Format: Kara Moyes, Ty Brender, Sean W. Smith, Hengyu Xu, Ben Setter, Li-Qun Fan, Rebecca Brunette, Justin Killebrew, Phil Tan, Craig Coburn, Peter Baum, Valerie Odegard. A systemically administered, conditionally active TLR8 agonist for the treatment of HER2-expressing tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 3271.

Antibody construct-drug conjugate for the treatment of hepatitis

Abstract: Various compositions are disclosed for the treatment of viral infections. The compositions comprise antibody constructs directed to the liver, attached to myeloid cell agonists, specifically TLR7 and TLR8 agonists, via a linker. Additionally provided are the methods of preparation and use of the conjugates. This includes methods for treating viral infections, such as viral liver diseases.

Antibody construct conjugates

Abstract: Various compositions are disclosed. The compositions of composition-immune stimulatory compound conjugates are also provided. Additionally provided are the methods of preparation and uses of the composition-immune stimulatory compound conjugates. This includes methods for treating disorders, such as cancer.

Unlocking the potential of antibody-drug conjugates for cancer therapy.

Abstract: Nine different antibody–drug conjugates (ADCs) are currently approved as cancer treatments, with dozens more in preclinical and clinical development. The primary goal of ADCs is to improve the therapeutic index of antineoplastic agents by restricting their systemic delivery to cells that express the target antigen of interest. Advances in synthetic biochemistry have ushered in a new generation of ADCs, which promise to improve upon the tissue specificity and cytotoxicity of their predecessors. Many of these drugs have impressive activity against treatment-refractory cancers, although hurdles impeding their broader use remain, including systemic toxicity, inadequate biomarkers for patient selection, acquired resistance and unknown benefit in combination with other cancer therapies. Emerging evidence indicates that the efficacy of a given ADC depends on the intricacies of how the antibody, linker and payload components interact with the tumour and its microenvironment, all of which have important clinical implications. In this Review, we discuss the current state of knowledge regarding the design, mechanism of action and clinical efficacy of ADCs as well as the apparent limitations of this treatment class. We then propose a path forward by highlighting several hypotheses and novel strategies to maximize the potential benefit that ADCs can provide to patients with cancer. Antibody–drug conjugates (ADCs) constitute a unique class of anticancer agents with demonstrated clinical efficacy against several different cancer types. Herein, the authors discuss the design and mechanisms of action of ADCs and how these properties are reflected in the clinical activity and toxicity profiles of such agents. Potential strategies to overcome the limitations of ADCs and thereby maximize their therapeutic benefit for patients with cancer are also proposed.

Cyclic di-nucleotide compounds and methods of use

Abstract: Disclosed are cyclic-di-nucleotide cGAMP analogs, methods of synthesizing the compounds, pharmaceutical compositions comprising the compounds thereof, and use of compounds and compositions in medical therapy.

Targeted and novel therapy in advanced gastric cancer.

Abstract: The systemic treatment options for advanced gastric cancer (GC) have evolved rapidly in recent years. We have reviewed the recent data of clinical trial incorporating targeted agents, including inhibitors of angiogenesis, human epidermal growth factor receptor 2 (HER2), mesenchymal–epithelial transition, epidermal growth factor receptor, mammalian target of rapamycin, claudin-18.2, programmed death-1 and DNA. Addition of trastuzumab to platinum-based chemotherapy has become standard of care as front-line therapy in advanced GC overexpressing HER2. In the second-line setting, ramucirumab with paclitaxel significantly improves overall survival compared to paclitaxel alone. For patients with refractory disease, apatinib, nivolumab, ramucirumab and TAS-102 have demonstrated single-agent activity with improved overall survival compared to placebo alone. Pembrolizumab has demonstrated more than 50% response rate in microsatellite instability-high tumors, 15% response rate in tumors expressing programmed death ligand 1, and non-inferior outcome in first-line treatment compared to chemotherapy. This review summarizes the current state and progress of research on targeted therapy for advanced GC.

Progress and challenges in HER2-positive gastroesophageal adenocarcinoma

Abstract: HER2 expression remains an important biomarker to guide the addition of the monoclonal antibody trastuzumab to first-line systemic chemotherapy in unresectable, metastatic gastroesophageal adenocarcinomas (GEA). However, in contrast to breast cancer, other HER2-targeted strategies to date have not improved outcomes in this molecular subtype of GEA. Since the initial development of HER2 biomarker testing guidelines, significant spatial intratumoral heterogeneity of HER2 overexpression has been recognized as a major characteristic of this disease. In this review, we aim to survey the seminal positive and negative trials investigating HER2-targeted agents for GEA. We also highlight emerging data on the genomic and temporal heterogeneity of molecular resistance alterations that have yielded further insight into the heterogeneity of therapeutic responses. We conclude with an overview of promising novel agents and strategies which may refine the therapeutic landscape.