Tarini Gunawardena scite author profile

Positive results in preclinical studies of the triple combination of elexacaftor, tezacaftor and ivacaftor, performed in airway epithelial cell cultures obtained from patients harboring F508del-CFTR, translated to impressive clinical outcomes for subjects carrying this mutation in clinical trials and approval of TRIKAFTATM. Encouraged by this correlation, we were prompted to evaluate the effect of the elexacaftor, tezacaftor and ivacaftor triple combination on primary nasal epithelial cultures obtained from individuals with rare Class II cystic fibrosis causing mutations; G85E, M1101K and N1303K for which TRIKAFTATM is not approved. Cultures from individuals homozygous for M1101K responded better than cultures harboring G85E and N1303K after treatment with the triple combination with respect to improvement in regulated channel function and protein processing. A similar genotype specific effect of the triple combination was observed when the different mutations were expressed in HEK-293 cells, supporting the hypothesis that these modulators may act directly on the mutant proteins. Detailed studies in nasal cultures and HEK-293 cells showed that the corrector: elexacaftor, exhibited dual activity as both corrector and potentiator and suggested that the potentiator activity contributes to its pharmacological activity. These preclinical studies using nasal epithelial cultures identified mutation genotypes for which elexacaftor, tezacaftor and ivacaftor may produce clinical responses that are comparable to, or inferior to those observed for F508del-CFTR.

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Conditioned media derived from mesenchymal stem cell cultures: The next generation for regenerative medicine

Gunawardena

Rahman

Abdullah

et al. 2019

J Tissue Eng Regen Med

115

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Recent studies suggest that the main driving force behind the therapeutic activity observed in mesenchymal stem cells (MSCs) are the paracrine factors secreted by these cells. These biomolecules also trigger antiapoptotic events to prevent further degeneration of the diseased organ through paracrine signalling mechanisms. In comparison with the normal physiological conditions, an increased paracrine gradient is observed within the peripheral system of diseased organs that enhances the migration of tissue-specific MSCs towards the site of infection or injury to promote healing.Thus, upon administration of conditioned media derived from mesenchymal stem cell cultures (MSC-CM) could contribute in maintaining the increased paracrine factor gradient between the diseased organ and the stem cell niche in order to speed up the process of recovery. Based on the principle of the paracrine signalling mechanism, MSC-CM, also referred as the secretome of the MSCs, is a rich source of the paracrine factors and are being studied extensively for a wide range of regenerative therapies such as myocardial infarction, stroke, bone regeneration, hair growth, and wound healing. This article highlights the current technological applications and advances of MSC-CM with the aim to appraise its future potential as a regenerative therapeutic agent.

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Functional rescue of c.3846G>A (W1282X) in patient-derived nasal cultures achieved by inhibition of nonsense mediated decay and protein modulators with complementary mechanisms of action

Laselva

Eckford

Bartlett

et al. 2020

Journal of Cystic Fibrosis

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Emerging preclinical modulators developed for F508del-CFTR have the potential to be effective for ORKAMBI resistant processing mutants

Laselva

Bartlett

Popa

et al. 2021

Journal of Cystic Fibrosis

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A new platform for high-throughput therapy testing on iPSC-derived lung progenitor cells from cystic fibrosis patients

et al. 2021

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For those people with cystic fibrosis carrying rare CFTR mutations not responding to currently available therapies, there is an unmet need for relevant tissue models for therapy development. Here, we describe a new testing platform that employs patient-specific induced pluripotent stem cells (iPSCs) differentiated to lung progenitor cells that can be studied using a dynamic, high-throughput fluorescence-based assay of CFTR channel activity. Our proof-of-concept studies support the potential use of this platform, together with a Canadian bioresource that contains iPSC lines and matched nasal cultures from people with rare mutations, to advance patient-oriented therapy development. Interventions identified in the high-throughput, stem cell-based model and validated in primary nasal cultures from the same person have the potential to be advanced as therapies.

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