Jeffrey Marthinuss scite author profile

Jeffrey Marthinuss

2Publications

74Citation Statements Received

21Citation Statements Given

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109

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Changes in Expression of Apoptosis-Associated Genes in Skin Mark Early Catagen

Seiberg¹,

Marthinuss²,

Stenn³

1995

Journal of Investigative Dermatology

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Programmed cell death is central to hair biology, as the hair follicle undergoes cycles of growth (anagen), regression (catagen), and rest (telogen). During catagen, the hair follicle shortens via a pathway of programmed cell death and apoptosis. The molecular mechanisms involved in this process have not been elucidated yet. Using reverse transcriptase-polymerase chain reaction, we examined in this study the expression in total skin, throughout one hair cycle, of a series of regulatory genes associated with apoptosis. We show that gene expression within skin is hair-cycle-dependent. Transforming growth factor-beta was expressed immediately before catagen; therefore, it might be involved in the early signaling of this process. Tumor necrosis factor-beta was expressed during catagen and might be involved in follicular apoptosis. Several proto-oncogenes and transcription factors have been described in the regulation of apoptosis in other systems. Here we show that the transcript levels of c-myc, c-myb, and c-jun changed immediately before or during early catagen and thus could be involved in the signaling or regulation of catagen. Levels of p53 remained constant throughout anagen and catagen, suggesting that p53 is not involved in the developmentally induced apoptosis of the hair follicle. The variable expression throughout the hair cycle of the genes described demonstrates the dynamic changes of the skin and underscores the importance of studying the complete hair cycle when characterizing any molecule in skin.

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Clusterin expression within skin correlates with hair growth

Seiberg¹,

Marthinuss²

1995

Developmental Dynamics

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Clusterin/T'RPM-2 is a sulfated glycoprotein that is expressed in many tissues. Independently cloned and isolated by several laboratories, it bears many names, and has been shown to be involved in many processes. These include cell-cell adhesion and aggregation, inhibition of complement cytolysis, programmed cell death and apoptosis, tissue remodeling, and terminal differentiation. The hair follicle undergoes cycles of growth, regression, and rest, which involve both tissue remodeling and programmed cell death. To identify whether clusterin expression is involved in hair growth and cycling, we studied the expression of clusterin throughout the hair cycle. We demonstrate that clusterin is expressed during the growth phase of the hair cycle. We found no correlation between clusterin expression and the apoptotic regression of the hair follicle. Using immunohistochemistry we localized clusterin to the inner root sheath of the follicle. This suggests that clusterin might be involved in the morphogenesis and differentiation of the hair follicle. We propose that clusterin has a role in the maintenance of the layered structure of the hair follicle, and in the interactions between the inner root sheath and both the outer root sheath and the hair shaft. o 1995 Wiley-Liss, Inc.

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