Development of a Novel Perfusable Solution for ex vivo Preservation: Towards Photosynthetic Oxygenation for Organ Transplantation

Veloso-Giménez, Valentina; Escamilla, Rosalba; Necuñir, David; Riveros, Sergio; Corrales-Orovio, Rocío; Ehrenfeld, Carolina; Egaña, José Tomás; Borić, Mauricio P.; Rebolledo, R.

doi:10.3389/fbioe.2021.796157

Cited by 19 publications

(20 citation statements)

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“…It is recognized as the go-to microorganism model for studying photosynthesis as it is easy to culture and has an extensive array of molecular tools available [ 36 ]. Moreover, it does not produce exotoxins or infectious agents [ 37 ], which has propelled its use as a nutritional supplement and its application in several biomedical approaches [ 28 , 29 , 35 ]. On the other hand, human melanomas were chosen as the cellular model because they tend to develop acidic and hypoxic areas [ 38 ] that lead to increased tumor malignancy [ 39 ] and high resistance to conventional ROS induction and drug treatments [ 40 ].…”

Section: Discussionmentioning

confidence: 99%

“…By using photosynthetic microorganisms, such as microalgae and cyanobacteria, researchers have explored the induction of photosynthesis as a simple and controllable local source of oxygen for tissues. This approach has been evaluated in various in vitro and in vivo hypoxic models, such as wound healing [ 24 ], myocardial ischemia [ 25 ], 3D bioprinted constructs [ 26 , 27 ], and ex situ kidney preservation [ 28 ]. Moreover, a phase I clinical trial using photosynthetic collagen scaffolds with the microalgae Chlamydomonas reinhardtii was recently published [ 29 ], showing the safety of such photosynthetic approaches in humans.…”

Section: Introductionmentioning

confidence: 99%

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Towards an In Vitro 3D Model for Photosynthetic Cancer Treatment: A Study of Microalgae and Tumor Cell Interactions

Holmes

Varas

Martín

et al. 2022

IJMS

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As hypoxic tumors show resistance to several clinical treatments, photosynthetic microorganisms have been recently suggested as a promising safe alternative for oxygenating the tumor microenvironment. The relationship between organisms and the effect microalgae have on tumors is still largely unknown, evidencing the need for a simple yet representative model for studying photosynthetic tumor oxygenation in a reproducible manner. Here, we present a 3D photosynthetic tumor model composed of human melanoma cells and the microalgae Chlamydomonas reinhardtii, both seeded into a collagen scaffold, which allows for the simultaneous study of both cell types. This work focuses on the biocompatibility and cellular interactions of the two cell types, as well as the study of photosynthetic oxygenation of the tumor cells. It is shown that both cell types are biocompatible with one another at cell culture conditions and that a 10:1 ratio of microalgae to cells meets the metabolic requirement of the tumor cells, producing over twice the required amount of oxygen. This 3D tumor model provides an easy-to-use in vitro resource for analyzing the effects of photosynthetically produced oxygen on a tumor microenvironment, thus opening various potential research avenues.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Towards an In Vitro 3D Model for Photosynthetic Cancer Treatment: A Study of Microalgae and Tumor Cell Interactions

Holmes

Varas

Martín

et al. 2022

IJMS

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“…The first results show an adequate and non‐harmful O 2 production. This could represent a novel and promising strategy for delivering oxygen in organ preservation 41 …”

Section: Discussionmentioning

confidence: 99%

Customized normothermic machine perfusion decreases ischemia–reperfusion injury compared with static cold storage in a porcine model of liver transplantation

et al. 2022

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Background Liver transplantation has been demonstrated to be the best treatment for several liver diseases, while grafts are limited. This has caused an increase in waiting lists, making it necessary to find ways to expand the number of organs available for transplantation. Normothermic perfusion (NMP) of liver grafts has been established as an alternative to static cold storage (SCS), but only a small number of perfusion machines are commercially available. Methods Using a customized ex situ machine perfusion, we compared the results between ex situ NMP and SCS preservation in a porcine liver transplant model. Results During NMP, lactate concentrations were 80% lower after the 3‐h perfusion period, compared with SCS. Bile production had a 2.5‐fold increase during the NMP period. After transplantation, aspartate transaminase (AST) and alanine transaminase (ALT) levels were 35% less in the NMP group, compared to the SCS group. In pathologic analyses of grafts after transplant, tissue oxidation did not change between groups, but the ischemia–reperfusion injury score was lower in the NMP group. Conclusion NMP reduced hepatocellular damage and ischemia–reperfusion injury when compared to SCS using a customized perfusion machine. This could be an alternative for low‐income countries to include machine perfusion in their therapeutic options.

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“…Organ damage and failure represent a crucial health care problem and are among the leading causes of clinical patient deaths globally (Home -GODT, 2019). One of the major challenges in engineered tissues, including brain, cardiac, skin, muscle, or pancreas, is the sustained supply of oxygen and nutrients to prevent critical hypoxia of tissue-engineered constructs during cultivation (Suvarnapathaki et al, 2019;Zhong et al, 2021a), which is called oxygenation (Veloso-Giménez et al, 2021). To resolve the aforementioned issues, recent research has been exploring the development of a new class of multifunctional "breathing" biomaterials that will provide adequate oxygen and vascularization of immobilized cells.…”

Section: Overcoming Hypoxia In Tissue Engineeringmentioning

confidence: 99%

New trends in biotechnological applications of photosynthetic microorganisms

Dawiec‐Liśniewska

Podstawczyk

Bastrzyk

et al. 2022

Biotechnology Advances

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Development of a Novel Perfusable Solution for ex vivo Preservation: Towards Photosynthetic Oxygenation for Organ Transplantation

Cited by 19 publications

References 53 publications

Towards an In Vitro 3D Model for Photosynthetic Cancer Treatment: A Study of Microalgae and Tumor Cell Interactions

Towards an In Vitro 3D Model for Photosynthetic Cancer Treatment: A Study of Microalgae and Tumor Cell Interactions

Customized normothermic machine perfusion decreases ischemia–reperfusion injury compared with static cold storage in a porcine model of liver transplantation

New trends in biotechnological applications of photosynthetic microorganisms

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