Your search keyword '"Caston, Jaela"' showing total 2 results

1. Profiling human brain vascular cells using single-cell transcriptomics and organoids.

Author

Crouch EE, Diafos LN, Valenzuela EJ, Wedderburn-Pugh K, Birrueta JO, Caston J, Joseph T, Andrews MG, Bhaduri A, and Huang EJ

Subjects

Humans, Gene Expression Profiling, Transcriptome, Brain, Organoids, Neurogenesis

Abstract

Angiogenesis and neurogenesis are functionally interconnected during brain development. However, the study of the vasculature has trailed other brain cell types because they are delicate and of low abundance. Here we describe a protocol extension to purify prenatal human brain endothelial and mural cells with FACS and utilize them in downstream applications, including transcriptomics, culture and organoid transplantation. This approach is simple, efficient and generates high yields from small amounts of tissue. When the experiment is completed within a 24 h postmortem interval, these healthy cells produce high-quality data in single-cell transcriptomics experiments. These vascular cells can be cultured, passaged and expanded for many in vitro assays, including Matrigel vascular tube formation, microfluidic chambers and metabolic measurements. Under these culture conditions, primary vascular cells maintain expression of cell-type markers for at least 3 weeks. Finally, we describe how to use primary vascular cells for transplantation into cortical organoids, which captures key features of neurovascular interactions in prenatal human brain development. In terms of timing, tissue processing and staining requires ~3 h, followed by an additional 3 h of FACS. The transplant procedure of primary, FACS-purified vascular cells into cortical organoids requires an additional 2 h. The time required for different transcriptomic and epigenomic protocols can vary based on the specific application, and we offer strategies to mitigate batch effects and optimize data quality. In sum, this vasculo-centric approach offers an integrated platform to interrogate neurovascular interactions and human brain vascular development., (© 2023. Springer Nature Limited.)

Published

2024

2. IL-31-dependent neurogenic inflammation restrains cutaneous type 2 immune response in allergic dermatitis.

Author

Fassett MS, Braz JM, Castellanos CA, Salvatierra JJ, Sadeghi M, Yu X, Schroeder AW, Caston J, Munoz-Sandoval P, Roy S, Lazarevsky S, Mar DJ, Zhou CJ, Shin JS, Basbaum AI, and Ansel KM

Subjects

Animals, Mice, Cytokines, Immunity, Pyroglyphidae, Skin immunology, Interleukins immunology, Interleukins metabolism, Dermatitis, Atopic, Neurogenic Inflammation

Abstract

Despite robust literature associating IL-31 with pruritic inflammatory skin diseases, its influence on cutaneous inflammation and the interplay between inflammatory and neurosensory pathways remain unmapped. Here, we examined the consequences of disrupting Il31 and its receptor Il31ra in a mouse model of house dust mite (HDM)-induced allergic dermatitis. Il31 -deficient mice displayed a deficit in HDM dermatitis-associated scratching, consistent with its well-established role as a pruritogen. In contrast, Il31 deficiency increased the number and proportion of cutaneous type 2 cytokine-producing CD4 + T cells and serum IgE in response to HDM. Furthermore, Il4ra + monocytes and macrophages capable of fueling a feedforward type 2 inflammatory loop were selectively enriched in Il31ra -deficient HDM dermatitis skin. Thus, IL-31 is not strictly a proinflammatory cytokine but rather an immunoregulatory factor that limits the magnitude of type 2 inflammatory responses in skin. Our data support a model wherein IL-31 activation of IL31RA + pruritoceptors triggers release of calcitonin gene-related protein (CGRP), which can mediate neurogenic inflammation, inhibit CD4 + T cell proliferation, and reduce T cell production of the type 2 cytokine IL-13. Together, these results illustrate a previously unrecognized neuroimmune pathway that constrains type 2 tissue inflammation in the setting of chronic cutaneous allergen exposure and may explain paradoxical dermatitis flares in atopic patients treated with anti-IL31RA therapy.

Published

2023