Lana Kostic scite author profile

Apoptosis culminates in the activation of caspase-3, which plays an important role in implementing the cell death program. Here, we reveal a non-apoptotic role of caspase-3 as a key regulator of cell proliferation and organ size. Caspase-3 is specifically activated in the proliferating cells of the sebaceous gland, but does not instruct cell elimination. Deletion or chemical inhibition of caspase-3 diminishes cell proliferation, decreases cell number and reduces sebaceous gland size in vivo. Exploring the underlying mechanism, we demonstrate that α-catenin is cleaved by caspase-3, thus facilitating the activation and nuclear translocation of yes-associated protein (YAP), a vital regulator of organ size. Accordingly, activation of caspase-3 leads to YAP-dependent organ size augmentation. Finally, we show that X-linked inhibitor of apoptosis protein (XIAP) serves as an endogenous feedback antagonist for the caspase-3/YAP signaling module. Taken together, we report here a molecular mechanism wherein the apoptotic machinery is refocused to regulate cell proliferation and orchestrate organ size.

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Isolating Hair Follicle Stem Cells and Epidermal Keratinocytes from Dorsal Mouse Skin

Soteriou¹,

Kostic²,

Sedov³

et al. 2016

JoVE

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The hair follicle (HF) is an ideal system for studying the biology and regulation of adult stem cells (SCs). This dynamic mini organ is replenished by distinct pools of SCs, which are located in the permanent portion of the HF, a region known as the bulge. These multipotent bulge SCs were initially identified as slow cycling label retaining cells; however, their isolation has been made feasible after identification of specific cell markers, such as CD34 and keratin 15 (K15). Here, we describe a robust method for isolating bulge SCs and epidermal keratinocytes from mouse HFs utilizing fluorescence activated cell-sorting (FACS) technology. Isolated hair follicle SCs (HFSCs) can be utilized in various in vivo grafting models and are a valuable in vitro model for studying the mechanisms that govern multipotency, quiescence and activation. Video LinkThe video component of this article can be found at

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Isolation of Stem Cells and Progenitors from Mouse Epidermis

Kostic

Sedov

Soteriou

et al. 2017

CP Stem Cell Biology

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The epidermis consists of several distinct compartments including the interfollicular epidermis (IFE), sweat glands, sebaceous glands (SGs), and the hair follicle (HF). While the IFE and SGs are in a constant state of self-renewal, the HF cycles between phases of growth, destruction, and rest. The hair follicle stem cells (HFSCs) that fuel this perpetual cycle have been well described and are located in a niche termed the bulge. These bulge SCs express markers such as CD34 and Keratin 15 (K15), enabling the isolation of these cells. Here, we describe a powerful method for isolating HFSCs and epidermal progenitors from mouse skin utilizing fluorescence activated cell-sorting (FACS). Upon isolation, cells can be expanded and utilized in various in vivo and in vitro models aimed at studying the function of these unique cells. © 2017 by John Wiley & Sons, Inc.

show abstract

Isolating Hair Follicle Stem Cells and Epidermal Keratinocytes from Dorsal Mouse Skin

Soteriou

Kostic

Sedov

et al. 2016

JoVE

View full text Add to dashboard Cite

Organoid systems for recapitulating the intestinal stem cell niche and modeling disease in vitro

Lim

Kostic

Barker

2022

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Lana Kostic

Caspase-3 Regulates YAP-Dependent Cell Proliferation and Organ Size

Isolating Hair Follicle Stem Cells and Epidermal Keratinocytes from Dorsal Mouse Skin

Isolation of Stem Cells and Progenitors from Mouse Epidermis

Isolating Hair Follicle Stem Cells and Epidermal Keratinocytes from Dorsal Mouse Skin

Organoid systems for recapitulating the intestinal stem cell niche and modeling disease in vitro

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