Browse our latest Stem Cells and Regenerative Medicine articles

Receptors for two distinct pathways are linked to choreograph the dynamic interaction of Wnt on the stem cell membrane, which leads to the control of asymmetric cell division.

Meniscal Gli1+ cells are mesenchymal progenitors that contribute to the development and injury repair of meniscus.

Hematopoietic stem and progenitor cells are heterogeneous on a population level, while cells derived from a common ancestor have similar division and differentiation patterns, indicating priming towards a certain differentiation/division fate.

Taste cell renewal begins at birth and is promoted by sonic hedgehog that alters the expression of regulators of cell migration and adhesion that may allow entry of new cells into buds.

Unlike in early embryonic development, injured spinal cord and muscle in Xenopus laevis larvae recruit non-canonical Hedgehog signaling essential for their regeneration, while repressing Gli transcriptional activity.

Transcriptomic analysis using a novel information-based network entropy approach provides mechanistic insights into the ability of Klotho to successfully ameliorate age-related sarcopenia in old mice, but not oldest-old mice.

Forces stemming from cell-matrix adhesions, but not cell-cell adhesions, are directly transmitted to the nuclear lamina to regulate epidermal cell fate.

Injuries activate the oral identity-specifying canonical Wnt signaling pathway in Hydra, which can trigger head regeneration in permissive tissue contexts created by the absence of pre-existing organizers.

In medaka fish, the reduction of cystic proliferation of germ stem cells declines gametogenesis, reproduction success, and male sexual behavior, with a decrease of mating vigor.

The combined use of NAD+ with ribitol or ribose potentiates the rescue of α-dystroglycan functional glycosylation in FKRP-mutant patient-specific iPSC-derived myotubes, representing potential novel treatments for FKRP muscular dystrophies.