Iglesias-Bartolome Laboratory
Ramiro Iglesias-Bartolome, Ph.D.
Research
Tissue development and homeostasis depend on the activity of specific stem cell populations. In particular, the epidermis of the skin and oral mucosa is highly dependent on resident self-renewing stem cells due to its continuous need to replace cells lost by desquamation or repair wounds. This makes the epidermis a unique system to study stem cell biology. The proper balance between self-renewal and differentiation in epithelial stem cells is largely achieved by a milieu of micro-environmental signals controlling stem cell fate decisions and cellular responses. Deregulation of this delicate balance is central to the development of numerous pathologies, including aging-related disorders, decreased tissue regeneration, and cancer.
Using a combination of in vitro cell culture systems and animal models, we elucidate the signaling mechanisms that control and drive epithelial stem cell self-renewal and differentiation. Our focus at this moment is on G-protein-coupled receptors (GPCRs) and their signaling partners. GPCRs are the largest family of cell-surface molecules involved in signal transduction, playing central roles in numerous physiological processes and pathological conditions along with their associated G proteins. Since GPCRs are the direct or indirect target of more than 25% of therapeutic drugs on the market, they represent a unique potential target for the pharmacological intervention of stem cell activity.
Most GPCRs relay their signal by coupling to heterotrimeric Gα, β, and γ subunits. Gα proteins are classified into four different families: Gαs, Gαi/o, Gαq/11 and Gα12/13. We have recently demonstrated that among Gα proteins, Gαs plays a central role in coordinating self-renewal and differentiation in epithelial stem cells. In mice, conditional epidermal deletion of the gene coding for Gαs protein or inactivation of its signaling partner protein kinase A (PKA) is sufficient to cause an aberrant expansion of the stem cell compartment, resulting in basal cell carcinoma (BCC) formation. These findings reveal that Gαs-PKA function as part of a tumor-suppressive axis, limiting the proliferation of epithelial stem cells and maintaining hair follicle and skin homeostasis. Furthermore, they indicate that GPCRs may be involved in differentiation and tumorigenicity within the epidermal stem cell compartment.
Our major goal is to identify particular GPCRs and their linked signaling partners that function as master regulators of epithelial stem cells during skin development and tissue homeostasis and their connection to malignant transformation and cancer. Our approaches include a variety of animal models and primary cell culture systems, synthetic biology methods, gene expression profiling by RNA sequencing, high-throughput screenings, microscopy, and biochemical assays.
Team
Alumni
Resources
You can find plasmids from our lab at Addgene
Covers
The landscape of GPCR signaling in the regulation of epidermal stem cell fate and skin homeostasis
Schematic representation of normal skin surrounded by a Circos plot indicating the expression of nonsensory G-protein coupled receptors at the mRNA level in different compartments.
Pedro, MP, Lund, K, Iglesias-Bartolome, R. The landscape of GPCR signaling in the regulation of epidermal stem cell fate and skin homeostasis. Stem Cells. 2020; 38: 1520– 1531. https://doi.org/10.1002/stem.3273