Abstract

IntroductionHyaluronan (HA), a primary component of the extracellular matrix, can accumulate in a variety of solid malignancies, where histological analyses of patient tumour tissues demonstrated that HA levels may correlate with patient outcomes. HA accumulation in the TME may be associated with poor prognosis. Preclinical studies demonstrated elevated TME HA levels increased tumour interstitial pressure, reduced tumour blood flow, and resulted in poor penetration of anticancer agents and immune cells. A PEGylated recombinant human hyaluronidase, pegvorhyaluronidase alfa (PEGPH20), depolymerizes HA, increases tumour vascular perfusion, and may increase access and anti-tumour efficacy of cytotoxic and immunotherapies.Material and methodsPegvorhyaluronidase alfa is being evaluated in clinical studies for pancreatic, breast, lung, cholangiocarcinoma, and gastric cancers. To broaden the spectrum of possible tumour types that may benefit from pegvyorhyaluronidase alfa, we assessed the prevalence and accumulation of HA in 3633 human histological samples in 22 solid tumour types. HA levels were measured using tissue microarrays (TMAs) stained with a proprietary HA probe, HTI–601, a recombinant immunoadhesin containing a modified HA–specific link domain from TNF-Stimulated Gene 6 protein (TSG–6) and the Fc portion of human IgG1. The resulting HA probe was biotinylated for use in an affinity-based histochemistry method. HA staining was evaluated with research-grade histological image analysis software. HA levels associated with distinct tumour compartments (stroma or tumour cells) were assessed. HA accumulation associated with immune infiltrates present in the TMA cores was also evaluated.Results and discussionsDistribution of HA accumulation across compartments fell into 4 main arrangements:- For desmoplastic tumour indications (pancreatic ductal adenocarcinoma, cholangiocarcinoma), the stroma was associated with high percentage of surface area stained with HTI-601 relative to the tumour cells;- Comparable distribution of HA staining in both tumour cells and stroma (gall bladder and glioblastoma);- Sub-clusters of HA staining within a specific tumour type (NSCLC non-squamous);- Distribution bias towards increased or decreased HA intensity staining (head and neck excluding nasopharyngeal cavities and renal cell carcinoma, respectively).ConclusionUnderstanding HA prevalence and accumulation in solid tumours may potentially identify malignancies that may benefit from pegvorhyaluronidase alfa therapy targeting HA.

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