Distinct Genetic Risk Profile in Aortic Stenosis Compared With Coronary Artery Disease.

Importance: Aortic stenosis (AS) and coronary artery disease (CAD) frequently coexist. However, it is unknown which genetic and cardiovascular risk factors might be AS-specific and which could be shared between AS and CAD.

Objective: To identify genetic risk loci and cardiovascular risk factors with AS-specific associations.

Beyond the Heartbeat: Single-Cell Omics Redefining Cardiovascular Research.

Purpose Of Review: This review aims to explore recent advances in single-cell omics techniques as applied to various regions of the human heart, illuminating cellular diversity, regulatory networks, and disease mechanisms. We examine the contributions of single-cell transcriptomics, genomics, proteomics, epigenomics, and spatial transcriptomics in unraveling the complexity of cardiac tissues.

Recent Findings: Recent strides in single-cell omics technologies have revolutionized our understanding of the heart's cellular composition, cell type heterogeneity, and molecular dynamics.

Insertion of a FLAG-tag sequence at the end of exon 9 of the TBX5 gene in three induced pluripotent stem cell lines (DHMi004-A-4, DHMi004-A-5, DHMi004-A-6) by CRISPR/Cas9 technology.

The identification of TBX5-related regulatory sequences in genes essential for heart development is hampered by the absence of antibodies which allow precipitation of TBX5:DNA complexes. Employing CRISPR/Cas9 technology, we have inserted a FLAG-tag sequence at the end of exon 9 of the TBX5 gene prior to the stop codon by homologous recombination. The translated TBX5-FLAG fusion protein of the three iPSC lines can effectively be precipitated by anti-FLAG antibodies and, thus, allow the detection of specific TBX5-binding sites and their associated genes.

Correction of a deleterious TBX5 mutation in an induced pluripotent stem cell line (DHMi004-A-1) using a completely plasmid-free CRISPR/Cas 9 approach.

TBX5 is a transcription factor which plays an essential role at different checkpoints during cardiac differentiation. However, regulatory pathways affected by TBX5 still remain ill-defined. We have applied the CRISPR/Cas9 technology using a completely plasmid-free approach to correct a heterozygous causative "loss-of function" TBX5 mutation in an iPSC line (DHMi004-A), that has been established from a patient suffering from Holt-Oram syndrome (HOS).

A Laser-Driven Microrobot for Thermal Stimulation of Single Cells.

Here, the study presents a thermally activated cell-signal imaging (TACSI) microrobot, capable of photothermal actuation, sensing, and light-driven locomotion. The plasmonic soft microrobot is specifically designed for thermal stimulation of mammalian cells to investigate cell behavior under heat active conditions. Due to the integrated thermosensitive fluorescence probe, Rhodamine B, the system allows dynamic measurement of induced temperature changes.