Fluorescence In Situ Hybridization of Small Non-Coding RNAs.

The determination of the cellular localization of a noncoding RNA (ncRNA) is highly helpful to decipher its function. RNA-FISH is a powerful method to detect specific RNAs in fixed cells. It allows both localization and quantification of RNA molecules within individual cells and tissues. Refined RNA-FISH methods have also been developed to determine RNA transcription and degradation rates. This chapter describes an RNA-FISH protocol that we developed to study the expression and localization of satellite III (SATIII) RNAs. This specific class of ncRNAs is expressed in response to various cellular stresses, including heat shock. The protocol is based on the use of a biotinylated LNA probe subsequently detected by a Streptavidin, Alexa Fluor® 488 conjugate. A protocol allowing efficient coupling of RNA-FISH and protein detection by immunofluorescence is also described as well as the bioinformatics pipeline, Substructure Analyzer, we recently developed to automate fluorescence signal analysis.

Transcriptional Heterogeneity of Beta Cells in the Intact Pancreas.

Pancreatic beta cells have been shown to be heterogeneous at multiple levels. However, spatially interrogating transcriptional heterogeneity in the intact tissue has been challenging. Here, we developed an optimized protocol for single-molecule transcript imaging in the intact pancreas and used it to identify a sub-population of "extreme" beta cells with elevated mRNA levels of insulin and other secretory genes. Extreme beta cells contain higher ribosomal and proinsulin content but lower levels of insulin protein in fasted states, suggesting they may be tuned for basal insulin secretion. They exhibit a distinctive intra-cellular polarization pattern, with elevated mRNA concentrations in an apical ER-enriched compartment, distinct from the localization of nascent and mature proteins. The proportion of extreme cells increases in db/db diabetic mice, potentially facilitating the required increase in basal insulin. Our results thus highlight a sub-population of beta cells that may carry distinct functional roles along physiological and pathological timescales.