The Role of Innate Priming in Modifying Tumor-associated Macrophage Phenotype.

Tumor-associated macrophages (TAMs) are innate immune cells that exert far reaching influence over the tumor microenvironment (TME). Depending on cues within the local environment, TAMs may promote tumor angiogenesis, cancer cell invasion and immunosuppression, or, alternatively, inhibit tumor progression via neoantigen presentation, tumoricidal reactive oxygen species generation and pro-inflammatory cytokine secretion. Therefore, TAMs have a pivotal role in determining tumor progression and response to therapy.

Functional links between the microbiome and the molecular pathways of colorectal carcinogenesis.

Colorectal cancer (CRC) is a common cancer, with a concerning rise in early-onset CRC cases, signalling a shift in disease epidemiology. Whilst our understanding of the molecular underpinnings of CRC has expanded, the complexities underlying its initiation remain elusive, with emerging evidence implicating the microbiome in CRC pathogenesis. This review synthesizes current knowledge on the intricate interplay between the microbiome, tumour microenvironment (TME), and molecular pathways driving CRC carcinogenesis.

HPLC-MS/MS-based quantification of human monoclonal antibodies targeting SARS-CoV-2 in the presence of endogenous SARS-CoV-2 antibodies in human serum.

Antibodies for treatment and prophylaxis against SARS-CoV-2 are needed particularly for immunocompromised individuals, who cannot adequately benefit from vaccination. To address this need, Aerium Therapeutics is developing antibodies targeting the SARS-CoV-2 spike protein. A bioanalytical method to quantify fully human monoclonal antibodies in a population with widely varying anti-spike antibody titers is required to investigate the pharmacokinetics of these antibodies in clinical trials.

Potent Apoptosis Induction by a Novel Trispecific B7-H3xCD16xTIGIT 2+1 Common Light Chain Natural Killer Cell Engager.

Valued for their ability to rapidly kill multiple tumor cells in succession as well as their favorable safety profile, NK cells are of increasing interest in the field of immunotherapy. As their cytotoxic activity is controlled by a complex network of activating and inhibiting receptors, they offer a wide range of possible antigens to modulate their function by antibodies. In this work, we utilized our established common light chain (cLC)-based yeast surface display (YSD) screening procedure to isolate novel B7-H3 and TIGIT binding monoclonal antibodies.

A First-in-Human Randomized Study to Assess the Safety, Tolerability, Pharmacokinetics, and Neutralization Profile of Two Investigational Long-Acting Anti-SARS-CoV-2 Monoclonal Antibodies.

Introduction: COVID-19 remains a significant risk for the immunocompromised given their lower responsiveness to vaccination or infection. Therefore, passive immunity through long-acting monoclonal antibodies (mAbs) offers a needed approach for pre-exposure prophylaxis (PrEP). Our study evaluated safety, anti-SARS-CoV-2 neutralizing activity, nasal penetration, and pharmacokinetics (PK) of two half-life-extended investigational mAbs, AER001 and AER002, providing the first demonstration of upper airway penetration of mAbs with the LS-modification.

Leveraging Technology to Diagnose Alzheimer's Disease: A Systematic Review and Meta-Analysis.

Background: About 50 million people worldwide suffered from dementia in 2018-two-thirds of those with Alzheimer's disease (AD). By 2050, this number is expected to rise to 152 million-which is slightly larger than the country of Russia. About 90% of these people are over the age of 65, but early-onset dementia can occur at younger ages.

Bacterial lipopolysaccharide modulates immune response in the colorectal tumor microenvironment.

Immune responses can have opposing effects in colorectal cancer (CRC), the balance of which may determine whether a cancer regresses, progresses, or potentially metastasizes. These effects are evident in CRC consensus molecular subtypes (CMS) where both CMS1 and CMS4 contain immune infiltrates yet have opposing prognoses. The microbiome has previously been associated with CRC and immune response in CRC but has largely been ignored in the CRC subtype discussion.

Detection of Chitinase 3-Like 1 in Symptomatic Primary Care Patient Faecal Samples is Not a Reliable Biomarker of Colonic Lesions.

Background: The current gold standard non-invasive test for detecting pre-cancerous changes is the faecal immunochemical test (FIT). However, this test can lack sensitivity and specificity and testing for another biomarker may address these limitations. Chitinase 3-like 1 (CHI3L1) is emerging as a potential biomarker of inflammation-associated carcinogenic changes in epithelial cells.

Cell Line Development Using Targeted Gene Integration into MAR-Rich Landing Pads for Stable Expression of Transgenes.

Integration of a gene of interest (GOI) into the genome of mammalian cells is the first step of cell line development campaigns for the production of biotherapeutics. Besides random integration methods, targeted gene integration approaches have emerged as promising tools over the last few years. In addition to reducing heterogeneity within a pool of recombinant transfectants, this process can also facilitate shorter timelines of the current cell line development process.

Bulk Reformatting of Antibody Fragments Displayed on the Surface of Yeast Cells to Final IgG Format for Mammalian Production.

While yeast surface display (YSD) has gained traction for antibody hit discovery efforts with the first therapeutic YSD-isolated antibody sintilimab approved in 2018, a major drawback that remains is the time-consuming reformatting of monoclonal antibody (mAb) candidates. By using a Golden Gate cloning (GGC)-dependent workflow, the bulk transfer of genetic information can be performed from antibody fragments displayed on yeast cells to a bidirectional mammalian expression vector. Herein, we describe in-depth protocols for the reformatting of mAbs, starting from the generation of Fab fragment libraries in YSD vectors and ending up with IgG molecules in bidirectional mammalian vectors in a consolidated two-pot, two-step procedure.

Generation of a symmetrical trispecific NK cell engager based on a two-in-one antibody.

To construct a trispecific IgG-like antibody at least three different binding moieties need to be combined, which results in a complex architecture and challenging production of these molecules. Here we report for the first time the construction of trispecific natural killer cell engagers based on a previously reported two-in-one antibody combined with a novel anti-CD16a common light chain module identified by yeast surface display (YSD) screening of chicken-derived immune libraries. The resulting antibodies simultaneously target epidermal growth factor receptor (EGFR), programmed death-ligand 1 (PD-L1) and CD16a with two Fab fragments, resulting in specific cellular binding properties on EGFR/PD-L1 double positive tumor cells and a potent ADCC effect.

Targeted Phagocytosis Induction for Cancer Immunotherapy via Bispecific MerTK-Engaging Antibodies.

The Tyro, Axl, and MerTK receptors (TAMRs) play a significant role in the clearance of apoptotic cells. In this work, the spotlight was set on MerTK, as it is one of the prominent TAMRs expressed on the surface of macrophages and dendritic cells. MerTK-specific antibodies were previously isolated from a transgenic rat-derived immune library with suitable biophysical properties.

TriTECM: A tetrafunctional T-cell engaging antibody with built-in risk mitigation of cytokine release syndrome.

Harnessing the innate power of T cells for therapeutic benefit has seen many shortcomings due to cytotoxicity in the past, but still remains a very attractive mechanism of action for immune-modulating biotherapeutics. With the intent of expanding the therapeutic window for T-cell targeting biotherapeutics, we present an attenuated trispecific T-cell engager (TCE) combined with an anti- interleukin 6 receptor (IL-6R) binding moiety in order to modulate cytokine activity (TriTECM). Overshooting cytokine release, culminating in cytokine release syndrome (CRS), is one of the severest adverse effects observed with T-cell immunotherapies, where the IL-6/IL-6R axis is known to play a pivotal role.

CD36 down regulation by the macrophage antioxidant 7,8-dihydroneopterin through modulation of PPAR-γ activity.

CD36 is the key scavenger receptor driving the formation of cholesterol-loaded foam cells, the principal cellular component of atherosclerotic plaques. CD36 is down regulated by 7,8-dihydroneopterin, a potent superoxide and hypochlorite scavenging antioxidant generated by interferon-γ stimulated macrophages. 7,8-dihydroneopterin downregulates CD36 mRNA and protein levels so inhibiting macrophage foam cell formation .

Streamlining the Transition From Yeast Surface Display of Antibody Fragment Immune Libraries to the Production as IgG Format in Mammalian Cells.

Yeast-surface display (YSD) is commonly applied to screen Fab immune or naïve libraries for binders of predefined target molecules. However, reformatting of isolated variants represents a time-intensive bottleneck. Herein, we present a novel approach to facilitate a lean transition from antibody screening using YSD Fab libraries to the production of full-length IgG antibodies in Expi293-F cells.

Humanization of Chicken-Derived Antibodies by Yeast Surface Display.

Chicken-derived antibodies emerged as a promising tool for diagnostic and therapeutic usage. Due to the phylogenetic distance between birds and mammals, chicken immunization campaigns with human antigens result in a chicken antibody (IgY) repertoire targeting epitopes not addressed by rodent-derived antibodies. However, this phylogenetic distance accounts for a low homology of IgY molecules to human antibodies, resulting in potential immunogenicity and thus excluding IgYs from therapeutic applications.

Antibody Library Screening Using Yeast Biopanning and Fluorescence-Activated Cell Sorting.

Yeast surface display (YSD) emerged as a prominent screening methodology for the isolation of monoclonal antibodies (mAbs) against various antigens. However, phage display remains the gold standard in cell panning-based screenings to isolate mAbs against difficult-to-screen targets, such as G-protein coupled receptors (GPCR) and ion channels. Herein we describe a step-by-step protocol to establish and perform the isolation of mAbs using YSD in a fluorescence-activated cell sorting (FACS)-assisted biopanning manner, yielding a variety of antibodies binding their antigen with high affinity in the natural environment of the cell.

A Generic Strategy to Generate Bifunctional Two-in-One Antibodies by Chicken Immunization.

Various formats of bispecific antibodies exist, among them Two-in-One antibodies in which each Fab arm can bind to two different antigens. Their IgG-like architecture accounts for low immunogenicity and also circumvents laborious engineering and purification steps to facilitate correct chain pairing. Here we report for the first time the identification of a Two-in-One antibody by yeast surface display (YSD) screening of chicken-derived immune libraries.

Generation of a host cell line containing a MAR-rich landing pad for site-specific integration and expression of transgenes.

In recent years, targeted gene integration (TI) has been introduced as a strategy for the generation of recombinant mammalian cell lines for the production of biotherapeutics. Besides reducing the immense heterogeneity within a pool of recombinant transfectants, TI also aims at shortening the duration of the current cell line development process. Here we describe the generation of a host cell line carrying Matrix-Attachment Region (MAR)-rich landing pads (LPs), which allow for the simultaneous and site-specific integration of multiple genes of interest (GOIs).

Effect of immune modulation on the skeletal muscle mitochondrial exercise response: An exploratory study in mice with cancer.

Cancer causes mitochondrial alterations in skeletal muscle, which may progress to muscle wasting and, ultimately, to cancer cachexia. Understanding how exercise adaptations are altered by cancer and cancer treatment is important for the effective design of exercise interventions aimed at improving cancer outcomes. We conducted an exploratory study to investigate how tumor burden and cancer immunotherapy treatment (anti-PD-1) modify the skeletal muscle mitochondrial response to exercise training in mice with transplantable tumors (B16-F10 melanoma and EO771 breast cancer).

Effects of exercise and anti-PD-1 on the tumour microenvironment.

Immune checkpoint inhibition is highly effective in treating a subset of patients with certain cancers, such as malignant melanoma. However, a large proportion of patients will experience treatment resistance, and other tumour types, such as breast cancer, have thus far proven largely refractory to immune checkpoint inhibitors as single agents. Exercise has been associated with improved cancer patient survival, has known immune-modulatory effects, may improve anti-tumour immunity and may normalise tumour blood vessels.

Treating Bladder Cancer: Engineering of Current and Next Generation Antibody-, Fusion Protein-, mRNA-, Cell- and Viral-Based Therapeutics.

Bladder cancer is a frequent malignancy and has a clinical need for new therapeutic approaches. Antibody and protein technologies came a long way in recent years and new engineering approaches were applied to generate innovative therapeutic entities with novel mechanisms of action. Furthermore, mRNA-based pharmaceuticals recently reached the market and CAR-T cells and viral-based gene therapy remain a major focus of biomedical research.