The G protein-coupled receptor kinase 2 (GRK2) orchestrates hair follicle homeostasis
The G protein-coupled receptor kinase 2 (GRK2) orchestrates hair follicle homeostasis
Tightly regulated cell-cell and cell-niche intercommunications via complex signaling networks are involved in maintaining normal hair follicle (HF) homeostasis, cycling and cell fate determination. However, knowledge of specific mechanisms by which hair loss takes place under pathological situations is still needed. Using a keratinocyte-specific knockout mouse model, we uncover that the G protein-coupled receptor kinase 2 (GRK2) signaling node plays a key role in HF homeostasis. We find that epidermal GRK2 ablation causes early alterations in the hair germ region and altered anagen induction, giving rise to abnormal cyst-like structures. HF-linked cysts display aberrant growth and differentiation patterns as well as lineage infidelity, proliferating steadily overcoming the catagen destructive phase and displaying features of abortive HFs that are unable to fully acquire all the canonical anagen cell layers. Cysts triggered by GRK2 deletion displace the dermal papilla away from the bulge and promote irreversible changes in hair follicle stem cell architecture, eventually leading to bulge destruction and hair loss. Remarkably, epidermal cysts in GRK2 knockout mice are destroyed during aging with features reminiscent of those described in alopecia areata. Our data provide unforeseen roles of GRK2 in epidermal physiology and uncover mechanisms linking dystrophic follicular cysts formation with hair loss, with potential connections to pathogenic processes operating in immune-mediated alopecias.
Asensio, Alejandro
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Sanz-Flores, Maria
8fb24134-bcf1-4707-b9c4-275c6bde0e66
Liakath-Ali, Kif
8d5a020c-e976-4901-9195-68f4bc0de74e
Palacios-García, Julia
4c55c43a-298d-45e9-9d1b-d928d1d98c66
Paramio, Jesús
de70a8dd-d9eb-485a-b9db-5d98af3fa9c1
García-Escudero, Ramon
9904c974-36a0-4617-a916-df125c8dd3be
Mayor Jr, Federico
5f7c4f28-1ee3-4f11-a3e5-3e7dcff91489
Ribas, Catalina
c6cadfa4-1335-4dd1-8fd5-e768a912158d
12 April 2024
Asensio, Alejandro
f435937d-8254-4c65-8a46-b9cd3ab5a0d6
Sanz-Flores, Maria
8fb24134-bcf1-4707-b9c4-275c6bde0e66
Liakath-Ali, Kif
8d5a020c-e976-4901-9195-68f4bc0de74e
Palacios-García, Julia
4c55c43a-298d-45e9-9d1b-d928d1d98c66
Paramio, Jesús
de70a8dd-d9eb-485a-b9db-5d98af3fa9c1
García-Escudero, Ramon
9904c974-36a0-4617-a916-df125c8dd3be
Mayor Jr, Federico
5f7c4f28-1ee3-4f11-a3e5-3e7dcff91489
Ribas, Catalina
c6cadfa4-1335-4dd1-8fd5-e768a912158d
[Unknown type: UNSPECIFIED]
Abstract
Tightly regulated cell-cell and cell-niche intercommunications via complex signaling networks are involved in maintaining normal hair follicle (HF) homeostasis, cycling and cell fate determination. However, knowledge of specific mechanisms by which hair loss takes place under pathological situations is still needed. Using a keratinocyte-specific knockout mouse model, we uncover that the G protein-coupled receptor kinase 2 (GRK2) signaling node plays a key role in HF homeostasis. We find that epidermal GRK2 ablation causes early alterations in the hair germ region and altered anagen induction, giving rise to abnormal cyst-like structures. HF-linked cysts display aberrant growth and differentiation patterns as well as lineage infidelity, proliferating steadily overcoming the catagen destructive phase and displaying features of abortive HFs that are unable to fully acquire all the canonical anagen cell layers. Cysts triggered by GRK2 deletion displace the dermal papilla away from the bulge and promote irreversible changes in hair follicle stem cell architecture, eventually leading to bulge destruction and hair loss. Remarkably, epidermal cysts in GRK2 knockout mice are destroyed during aging with features reminiscent of those described in alopecia areata. Our data provide unforeseen roles of GRK2 in epidermal physiology and uncover mechanisms linking dystrophic follicular cysts formation with hair loss, with potential connections to pathogenic processes operating in immune-mediated alopecias.
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Published date: 12 April 2024
Identifiers
Local EPrints ID: 491193
URI: http://eprints.soton.ac.uk/id/eprint/491193
PURE UUID: e51f7d16-0921-4957-b0d7-9006d79cb4b7
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Date deposited: 14 Jun 2024 16:52
Last modified: 15 Jun 2024 02:11
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Contributors
Author:
Alejandro Asensio
Author:
Maria Sanz-Flores
Author:
Kif Liakath-Ali
Author:
Julia Palacios-García
Author:
Jesús Paramio
Author:
Ramon García-Escudero
Author:
Federico Mayor Jr
Author:
Catalina Ribas
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