TITLE
Effects of hypertrichotic agents on follicular and nonfollicular cells in
vitro.
AUTHOR
Kurata S; Uno H; Allen-Hoffmann BL
ORGANISATION
Wisconsin Regional Primate Research Center, Madison 53715-1299, USA.
SOURCE
Skin Pharmacol 1996; 9 (1): 3-8
LANGUAGE OF PUBLICATION
English
ABSTRACT
Our previous studies revealed that topical minoxidil induced an increased
rate of DNA synthesis in both dermal papilla and follicular germinal cells in
early anagen and bulbar matrix as well as outer root sheath and perifollicular
fibrocytic cells in mid and late anagen follicles in the bald scalp of the
stump-tailed macaque. However, the epidermis and dermal fibrocytes showed no
response. To determine the specific action of hypertrichotic agents on
follicular cells, we examined the effects of two potent hypertrichotic agents,
minoxidil and cyclosporin, on the DNA synthesis of cultured cells derived from
either follicular cells (dermal papillar, perifollicular fibrocytic and outer
root sheath cells) obtained from human and macaque scalps or nonfollicular
cells (fibrocytes and epidermal keratinocytes) from human and macaque foreskin,
palm and sole regions and the 3T3 cell line. Cultured subconfluent cells from
the above follicular and nonfollicular specimens were incubated with either
minoxidil (0.01-2 mM) or cyclosporin (0.01-100 mM) in medium (serum-free DMEM)
for 48 h, then 3H-thymidine was added for the final 6 h. Minoxidil induced a
significant increase in DNA synthesis in all follicular cells in a
dose-specific manner (maximum rate at 0.5 mM for dermal papilla and
perifollicular fibrocytic cells and 0.1 mM for outer root sheath cells). The
perifollicular fibrocytic cells appeared to have a potentiality similar to that
of the dermal papilla cells. Nonfollicular cells showed no response to
minoxidil; 3T3 cells were rather suppressed. Cyclosporin appeared to have
rather suppressive effects on both follicular and nonfollicular cells. These
results suggest that minoxidil has a specific affinity to hair follicular cells
and induced their cell proliferation. Although cyclosporin is known as a potent
hypertrichotic agent, our studies on cultured follicular cells showed no direct
proliferative effect. The hypertrichotic mechanism of cyclosporin appeared to
be different from that of minoxidil. (AUTHOR)
MJTR: Cyclosporine PD. Hair DE. Hair GD. Hair
Follicle DE. Hair Follicle GD. Minoxidil PD.
MNTR: Animal. Cell Division DE. Cells,
Cultured. DNA BI. Epithelium CY. Epithelium DE. Epithelium ME. Female. Human.
Kinetics. Macaca. Male. Mice. Thymidine ME. 3T3 Cells. JOURNAL ARTICLE
RNUM: 38304-91-5 (Minoxidil); 50-89-5
(Thymidine); 59865-13-3 (Cyclosporine); 9007-49-2 (DNA)
GEOT: SWITZERLAND
IDEN: ISSN: 1011-0283. JOURNAL-CODE: AOA.
ENTRY-DATE: 961115. JOURNAL-SUBSET: M. IM-DATE: 9701. PAGE 2 National Library
of Medicine MEDLINE Database
ACCE: 97021667