Brody Mallard scite author profile

Brody Mallard

5Publications

62Citation Statements Received

391Citation Statements Given

How they've been cited

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425

371

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Griffith University

Publications

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Cancer stem cell marker glycosylation: Nature, function and significance

Mallard

Tiralongo

2017

Glycoconj J

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Glycans are essential for the maintenance of normal biological function, with alterations in glycan expression being a hallmark of cancer. Cancer stem cells (CSCs) are a subset of cells within a tumour capable of self-renewal, cellular differentiation and resistances to conventional therapies. As is the case with stem cells, marker proteins present on the cell surface are frequently used to identify and enrich CSCs, with the expression of these markers statistical correlating with the likelihood of cancer recurrence and overall patient survival. As such CSC markers are of high clinical relevance. The majority of markers currently used to identify CSC populations are glycoproteins, and although the diverse biological roles for many of these markers are known, the nature and function of the glycan moiety on these glycoproteins remains to be fully elucidated. This mini-review summarises our current knowledge regarding the types and extent of CSC marker glycosylation, and the various roles that these glycans play in CSC biology, including in mediating cell adhesion, metastasis, evading apoptosis, tear shear resistance, tumour growth, maintaining pluripotency, self-renewal, trafficking, maintaining stability, maintaining enzymatic activity and aiding epithelial mesenchymal transitioning. Given that CSCs markers have multiple diverse biological functions, and are potentially of significant diagnostic and therapeutic benefit the search for new markers that are uniquely expressed on CSCs is vital to selectively target/identify this subset of cancer cells. As such we have also outlined how high-throughput lectin microarrays can be used to successfully profile the glycosylation status of CSC and to identify glyco-markers unique to CSCs.

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Synergistic immuno-modulatory activity in human macrophages of a medicinal mushroom formulation consisting of Reishi, Shiitake and Maitake

et al. 2019

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A key characteristic of mushroom polysaccharides that elicit an immunomodulatory response is that they are rich in β-glucans and low in α-glucans. In this study we analysed nine commercially available preparations from three mushroom species, Reishi (Ganoderma lucidum), Shiitake (Lentinula edodes) and Maitake (Grifola frondosa), for β- and α-glucan content. Based on β- and α-glucan content we selected three extracts to combine into a formula and evaluated the ability of the individual extracts and formula to impact on the expression of cytokines IL-1α, IL-6, IL-10 and TNF-α in human macrophages with and without LPS stimulation. The majority of mushroom extracts and the formula were found to be highly potent immuno-stimulators possessing EC50 values lower than 100 μg/mL. Interestingly the mushroom formula had lower EC50 values in TNF-α expression from LPS stimulated macrophages compared to the individual extracts, suggesting a potential synergistic effect of the mushroom formula. A response additivity graph and curve-shift analysis illustrated that indeed the mushroom formula exhibited an immuno-stimulatory synergistic effect on the expression of the majority of cytokines evaluated in both LPS stimulated and non-stimulated human macrophages, with IL-10 having an antagonistic response. This study represents the first report of a synergistic immuno-modulatory response in human macrophages elicited from a mushroom formula rationally derived from β- and α-glucan content.

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Fluorescent Carbon Dots Functionalized with Self-Assembled Glycan Monolayers for Probing Interactions across the Glyco-Interactome

Cooper

Eftekhari

Carter

et al. 2020

ACS Appl. Nano Mater.

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Multivalent protein−glycan interactions are widespread in biology and are vital for initial recognition in cell−cell communication, host immune regulation, and viral and bacterial infection. Recently, fluorescent nanomaterials such as quantum dots (QDs) have been identified as a capable scaffold for multivalent carbohydrate immobilization. Carbon dots (CDs) are essentially heavy-metal-free QDs, offering a low-toxicity alternative for bioimaging and biosensing applications. Herein, we report a simple and versatile route for linker functionalization of lactose with (3-glycidyloxypropyl)trimethoxysilane (GOPTS) for conjugation to various CDs. CDs derived by thermal treatment of polyethylenimine (PEI) with citric acid and lactose, as the glycan, were employed in a number of detailed biological applications and evaluations. The self-assembled glycan monolayer (SAGM) method described here resulted in a high yield of lactose-conjugated CDs. Specific interactions of our lactose-coated CDs with cells, lectin microarrays, and as internalized bioimaging nanolights were demonstrated, with intracellular localization in a variety of cell lines observed. This present study offers a facile, one-pot, green, and low-cost synthesis of fluorescent multivalent nanoparticles that can be applied in the study of diverse interactions across the glycointeractome.

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Mushroom Natural Products in Neurodegenerative Disease Drug Discovery

Abitbol

Mallard

Tiralongo

et al. 2022

Cells

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The variety of drugs available to treat neurodegenerative diseases is limited. Most of these drug’s efficacy is restricted by individual genetics and disease stages and usually do not prevent neurodegeneration acting long after irreversible damage has already occurred. Thus, drugs targeting the molecular mechanisms underlying subsequent neurodegeneration have the potential to negate symptom manifestation and subsequent neurodegeneration. Neuroinflammation is a common feature of neurodegenerative diseases such as Alzheimer’s disease, Parkinson’s disease, Huntington’s disease, and multiple sclerosis, and is associated with the activation of the NLRP3 inflammasome, which in turn leads to neurodegeneration. Inflammasome activation and oligomerisation is suggested to be a major driver of disease progression occurring in microglia. With several natural products and natural product derivatives currently in clinical trials, mushrooms have been highlighted as a rich and largely untapped source of biologically active compounds in both in vitro and in vivo neurodegenerative disease models, partially supported by successful clinical trial evaluations. Additionally, novel high-throughput methods for the screening of natural product compound libraries are being developed to help accelerate the neurodegenerative disease drug discovery process, targeting neuroinflammation. However, the breadth of research relating to mushroom natural product high-throughput screening is limited, providing an exciting opportunity for further detailed investigations.

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Novel synergistic immune modulating activity of a medicinal mushroom formulation

Wohlmuth¹,

Tiralongo

Mallard

et al. 2019

Advances in Integrative Medicine

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Brody Mallard

Cancer stem cell marker glycosylation: Nature, function and significance

Synergistic immuno-modulatory activity in human macrophages of a medicinal mushroom formulation consisting of Reishi, Shiitake and Maitake

Fluorescent Carbon Dots Functionalized with Self-Assembled Glycan Monolayers for Probing Interactions across the Glyco-Interactome

Mushroom Natural Products in Neurodegenerative Disease Drug Discovery

Novel synergistic immune modulating activity of a medicinal mushroom formulation

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