Quantitative changes in the secretion of exosomes from keratinocytes homeostatically regulate skin pigmentation in a paracrine manner.

The content and distribution of melanin in the epidermis determines the wide variety of skin colors associated with ethnic/racial diversity. Although it was previously reported that qualitative changes in keratinocyte-derived exosomes regulate melanocyte pigmentation in vitro, their practical involvement, especially in skin color development in vivo, has remained unclear. To address this unexplained scientific concern, the correlation of epidermal exosomes isolated from human skin tissues with melanosomal protein expression levels was demonstrated in this study for the first time. After confirming the quantitative effect of human keratinocyte-derived exosomes on human melanocyte activation, even in the absence of ultraviolet B (UV-B) exposure, the impact of exosomes secreted from UV-B-irradiated keratinocytes on melanogenesis was consistently detected, which suggests their constitutive role in regulating cutaneous pigmentation. Additionally, both a specific exosome secretion inducer and a suppressor were consistently found to significantly control melanin synthesis in a co-culture system composed of keratinocytes and melanocytes as well as in an ex vivo skin culture system. These results suggest that quantitative changes, in addition to already known qualitative changes, in exosomes secreted from human epidermal keratinocytes homeostatically regulate melanogenic activity in a paracrine manner, which leads to skin color determination.

Substantial evidence for the rhododendrol-induced generation of hydroxyl radicals that causes melanocyte cytotoxicity and induces chemical leukoderma.

BACKGROUND: Rhododendrol (4-(4-hydroxyphenyl)-2-butanol) has been used as a lightening/whitening cosmetic but was recently reported to induce leukoderma. Although rhododendrol has been shown to be transformed by tyrosinase to hydroxyl-rhododendrol, which is cytotoxic to melanocytes, its detailed mechanism of action including the involvement of reactive oxygen species is not clearly understood. OBJECTIVE: To confirm the relationship of hydroxyl radical generation to melanocyte cytotoxicity induced by rhododendrol, this study was performed. METHODS: An electron spin resonance method with a highly sensitive detection system was utilized to monitor hydroxyl radicals generated from two distinct normal human epidermal melanocyte lines with different levels of tyrosinase activity after the addition of various amounts of rhododendrol. Cytotoxicity of rhododendrol was analyzed by AlamarBlue assay under the same condition. RESULTS: Hydroxyl radicals were generated depending on the amounts of rhododendrol and/or tyrosinase. After the correlation between hydroxyl radical generation with melanocyte viability was confirmed, an inhibitor of oxidative stress, N-acetyl cysteine, was shown to dramatically diminish rhododendrol-induced generation of hydroxyl radicals and melanocyte cytotoxicity by increasing glutathione levels. In contrast, buthionine sulfoximine, which depletes glutathione, augmented both of those parameters. CONCLUSION: Suppressing oxidative stress would prevent and/or mitigate some phenol derivative-induced leukoderma by avoiding hydroxyl radical-initiated melanocyte cytotoxicity.

Induction of Skin-Derived Precursor Cells from Human Induced Pluripotent Stem Cells.

The generation of full thickness human skin from dissociated cells is an attractive approach not only for treating skin diseases, but also for treating many systemic disorders. However, it is currently not possible to obtain an unlimited number of skin dermal cells. The goal of this study was to develop a procedure to produce skin dermal stem cells from induced pluripotent stem cells (iPSCs). Skin-derived precursor cells (SKPs) were isolated as adult dermal precursors that could differentiate into both neural and mesodermal progenies and could reconstitute the dermis. Thus, we attempted to generate SKPs from iPSCs that could reconstitute the skin dermis. Human iPSCs were initially cultured with recombinant noggin and SB431542, an inhibitor of activin/nodal and TGFß signaling, to induce neural crest progenitor cells. Those cells were then treated with SKP medium that included CHIR99021, a WNT signal activator. The induction efficacy from neural crest progenitor cells to SKPs was more than 97%. No other modifiers tested were able to induce those cells. Those human iPSC-derived SKPs (hiPSC-SKPs) showed a similar gene expression signature to SKPs isolated from human skin dermis. Human iPSC-SKPs differentiated into neural and mesodermal progenies, including adipocytes, skeletogenic cell types and Schwann cells. Moreover, they could be induced to follicular type keratinization when co-cultured with human epidermal keratinocytes. We here provide a new efficient protocol to create human skin dermal stem cells from hiPSCs that could contribute to the treatment of various skin disorders.

Variation in Hsp70-1A Expression Contributes to Skin Color Diversity.

The wide range in human skin color results from varying levels of the pigment melanin. Genetic mechanisms underlying coloration differences have been explored, but identified genes do not account for all variation seen in the skin color spectrum. Post-transcriptional and post-translational regulation of factors that determine skin color, including melanin synthesis in epidermal melanocytes, melanosome transfer to keratinocytes, and melanosome degradation, is also critical for pigmentation. We therefore investigated proteins that are differentially expressed in melanocytes derived from either white or African American skin. Two-dimensional gel electrophoresis and mass spectrometry demonstrated that heat shock protein 70-1A (Hsp70-1A) protein levels were significantly higher in African American melanocytes compared with white melanocytes. Hsp70-1A expression significantly correlated with levels of tyrosinase, the rate-limiting melanogenic enzyme, consistent with a proposed role for Hsp70 family members in tyrosinase post-translational modification. In addition, pharmacologic inhibition and small interfering RNA-mediated downregulation of Hsp70-1A correlated with pigmentation changes in cultured melanocytes, modified human skin substitutes, and ex vivo skin. Furthermore, Hsp70-1A inhibition led to increased autophagy-mediated melanosome degradation in keratinocytes. Our data thus reveal that epidermal Hsp70-1A contributes to the diversity of skin color by regulating the amount of melanin synthesized in melanocytes and modulating autophagic melanosome degradation in keratinocytes.

Developmental Changes in Neonatal and Infant Skin Structures During the First 6 Months: In Vivo Observation.

BACKGROUND/OBJECTIVES: Developmental changes of structures in neonatal and infant skin have not been well characterized. The purpose of this study was to clarify changes in skin structures during neonatal and infant growth in vivo. METHODS: Fifteen healthy, full-term neonates (seven girls, eight boys) were studied. The measurements were performed 4 to 7 days (neonate) and 1, 3, and 6 months after birth on the buttock, upper thigh, and ventral forearm skin using a confocal laser scanning microscope. Developmental changes in dermoepidermal junction structures, stratum corneum thickness, epidermal thickness, and microvascular development were investigated. RESULTS: A significant decrease in stratum corneum thickness was observed over the 3 months after birth. Dermal papillae were not observed in neonatal skin but were observed gradually over the next 3 months. Epidermal thickness, determined from the skin surface to the bottom of the epidermal layer, increased significantly from 4 to 7 days to 1 month of age, indicating the formation of dermal papillae and rete ridges. Complicated microvascular structures were observed in neonatal skin but disappeared gradually and were observed only at the dermal papillae at 3 months of age. CONCLUSIONS: Our results reveal that infant skin is in a developmental stage structurally up to 3 months of age, paralleling skin functional and developmental maturation.

t-Flavanone Improves the Male Pattern of Hair Loss by Enhancing Hair-Anchoring Strength: A Randomized, Double-Blind, Placebo-Controlled Study.

INTRODUCTION: trans-3,4'-Dimethyl-3-hydroxyflavanone (t-flavanone) is a derivative of astilbin that actively stimulates hair growth. The aim of the present study was to identify the mechanisms of action of t-flavanone on hair growth. METHODS: A double-blind usage test was performed with healthy volunteers who had androgenic alopecia (AGA). The subjects were divided into three groups with equal average baldness. The members in each group applied a vasodilator-containing hair lotion supplemented with either 0, 0.1, or 0.3% (wt) t-flavanone twice a day for 30 weeks. The efficacy of t-flavanone was evaluated based on the parietal global and microscopic images. At week 30, the anchoring strength of hair was measured by the average peak force required for plucking out a single hair in a non-bald area using a digital force gauge. Desmoglein expression in the cultured human hair follicle was analyzed by Western blotting. RESULTS: After 30 weeks, t-flavanone significantly improved AGA and enhanced the hair-anchoring strength in a hair diameter-independent manner. Culture of human hair follicles in vitro with t-flavanone resulted in the upregulation of desmoglein protein expression. CONCLUSIONS: The results of our in vivo and in vitro studies demonstrated that t-flavanone enhanced the cell-cell adhesions in hair follicles; thus, reinforcement of hair rooting may be a mechanism by which t-flavanone promotes hair growth. FUNDING: Kao Corp.

Cooperation of endothelin-1 signaling with melanosomes plays a role in developing and/or maintaining human skin hyperpigmentation.

Skin hyperpigmentation is characterized by increased melanin synthesis and deposition that can cause significant psychosocial and psychological distress. Although several cytokine-receptor signaling cascades contribute to the formation of ultraviolet B-induced cutaneous hyperpigmentation, their possible involvement in other types of skin hyperpigmentation has never been clearly addressed. Since our continuous studies using skin specimens from more than 30 subjects with ethnic skin diversity emphasized a consistent augmentation in the expression of endothelin-1 (ET-1) and its receptor (Endothelin B receptor, ET-B) in hyperpigmented lesions, including senile lentigos (SLs), the precise function of ET-1 signaling was investigated in the present study. In line with previous studies, ET-1 significantly induced melanogenesis followed by increases in melanosome transport in melanocytes and in its transfer to keratinocytes while inhibition of ET-B function substantially depressed melanogenic ability in tissue-cultured SLs. Additionally, in agreement with a previous report that the formation of autophagosomes rather than melanosomes is stimulated according to starvation or defective melanosome production, ET-1 was found to remarkably augment the expression of components necessary for early melanosome formation, indicating its counteraction against autophagy-targeting melanosome degradation in melanocytes. Despite the lack of substantial impact of ET-1 on keratinocyte melanogenic functions, the expression of ET-1 was enhanced following melanosome uptake by keratinocytes. Taken together, our data suggest that ET-1 plays a substantial role in the development and/or maintenance of skin hyperpigmentation in reciprocal cooperation with increased melanosome incorporation.

Depigmentation caused by application of the active brightening material, rhododendrol, is related to tyrosinase activity at a certain threshold.

BACKGROUND: Tyrosinase, the rate-limiting enzyme required for melanin production, has been targeted to develop active brightening/lightening materials for skin products. Unexpected depigmentation of the skin characterized with the diverse symptoms was reported in some subjects who used a tyrosinase-competitive inhibiting quasi-drug, rhododendrol. OBJECTIVE: To investigate the mechanism underlying the depigmentation caused by rhododendrol-containing cosmetics, this study was performed. METHODS: The mechanism above was examined using more than dozen of melanocytes derived from donors of different ethnic backgrounds. The RNAi technology was utilized to confirm the effect of tyrosinase to induce the cytotoxicity of rhododendrol and liquid chromatography-tandem mass spectrometry was introduced to detect rhododendrol and its metabolites in the presence of tyrosinase. RESULTS: Melanocyte damage was related to tyrosinase activity at a certain threshold. Treatment with a tyrosinase-specific siRNA was shown to dramatically rescue the rhododendrol-induced melanocyte impairment. Hydroxyl-rhododendrol was detected only in melanocytes with higher tyrosinase activity. When an equivalent amount of hydroxyl-rhododendrol was administered, cell viability was almost equally suppressed even in melanocytes with lower tyrosinase activity. CONCLUSION: The generation of a tyrosinase-catalyzed hydroxyl-metabolite is one of the causes for the diminishment of the melanocyte viability by rhododendrol.

Angular-type furocoumarins from the roots of Angelica atropurpurea and their inhibitory activity on the NFAT signal transduction pathway.

One new (1) and two known angular-type (2,3) furocoumarins, isoarchangelicin (1), archangelicin (2), and 2'-angeloyl-3'-isovaleryl vaginate (3), were isolated from the roots of Angelica atropurpurea. The structure of the new compound was established on the basis of one- and two-dimensional NMR spectra and other spectroscopic studies. The inhibitory activity of these three compounds and a deacylated form of archangelicin (4) on the nuclear factor of activated T cells (NFAT) signal transduction pathway was tested by NFAT-responsive luciferase reporter gene assay in cultured cells. Although 4 did not exhibit inhibitory activity on NFAT signaling, 1-3 exhibited dose-dependent inhibition with IC50 values of 16.5 (1), 9.0 (2), and 9.2 (3) µM.

The role of neprilysin in regulating the hair cycle.

In most mammals, each hair follicle undergoes a cyclic process of growing, regressing and resting phases (anagen, catagen, telogen, respectively) called the hair cycle. Various biological factors have been reported to regulate or to synchronize with the hair cycle. Some factors involved in the extracellular matrix, which is a major component of skin tissue, are also thought to regulate the hair cycle. We have focused on an enzyme that degrades elastin, which is associated with skin elasticity. Since our previous study identified skin fibroblast elastase as neprilysin (NEP), we examined the fluctuation of NEP enzyme activity and its expression during the synchronized hair cycle of rats. NEP activity in the skin was elevated at early anagen, and decreased during catagen to telogen. The expression of NEP mRNA and protein levels was modulated similarly. Immunostaining showed changes in NEP localization throughout the hair cycle, from the follicular epithelium during early anagen to the dermal papilla during catagen. To determine whether NEP plays an important role in regulating the hair cycle, we used a specific inhibitor of NEP (NPLT). NPLT was applied topically daily to the dorsal skin of C3H mice, which had been depilated in advance. Mice treated with NPLT had significantly suppressed hair growth. These data suggest that NEP plays an important role in regulating the hair cycle by its increased expression and activity in the follicular epithelium during early anagen.

Effects of IGF-binding protein 5 in dysregulating the shape of human hair.

The hair follicle has a unique dynamic property to cyclically regenerate throughout life. Despite significant progress in hair structure and hair shape determination using animal models, the mechanisms controlling the architecture and the shape of the human hair remain largely unexplored. In this study, comparison of the genetic expression of several human genes, especially those involved in growth, development, and differentiation, between Caucasian curly hair and naturally straight hair was performed. Thereafter, analyses using human recombinant and lentiviral vector technologies were conducted to further dissect and elucidate a molecular mechanism that regulates hair growth and development, particularly in controlling the shape of the hair shaft. Overexpression of IGF-binding protein 5 (IGFBP-5) in the human hair xenografts obtained from straight- and curly-haired individuals was found to result in the decreased expression of several extracellular matrix proteins and disassembly of adhesional junctions, resulting in twisted hair shafts as well as an unusual deposition of hair cuticle that may be derived from the disturbance of normal proliferation and differentiation. This study provides evidence that IGFBP-5 has an effect on human hair shape, and that lentiviral transduction regimen can be used for functional analysis of genes involved in human hair morphogenesis.

Neprilysin is identical to skin fibroblast elastase: its role in skin aging and UV responses.

Although human skin fibroblast (HSF) elastase has been characterized as a membrane-bound metalloproteinase, little is known about its structure, amino acid sequence, and encoding gene. As there are similarities in the molecular weights and inhibitory profiles of HSF elastase and neprilysin (neutral endopeptidase 24.11 (NEP)), in this study we tested the hypothesis that they are identical using immunoprecipitation and transfection methods. An immunoprecipitation study demonstrated that HSF elastase activity co-immunoprecipitated with anti-NEP in lysates of cultured HSF. Transfection of an NEP cDNA expression vector into COS-1 cells elicited the expression of HSF elastase and NEP activities in the transfected cells. These findings strongly suggest that HSF elastase is identical to NEP, which functions mainly in neuron-associated cells to degrade neuropeptides. Analysis of the expression pattern of NEP revealed that its expression was remarkably up-regulated at the gene, protein, and enzymatic activity levels during the replicative senescence of cultured HSF. Further, the activity of NEP was markedly enhanced in a pattern similar to elastase activity during the intrinsic aging of mouse skin, in UVA-exposed HSF as well as in HSF treated with conditioned medium from UVB-exposed human keratinocytes. Analysis of the cytokine profile for the stimulation of NEP and HSF elastase activities in HSF demonstrated that among the 11 cytokines tested, IL-1α, IL-1ß, IL-6, IL-8, and GM-CSF had the potential to significantly stimulate both activities similarly, again supporting the identity of HSF elastase and NEP.

Development of a novel method to measure the elastic properties of skin including subcutaneous tissue: new age-related parameters and scope of application.

BACKGROUND/PURPOSE: We have developed a new apparatus to measure the elastic properties of skin without contact using an air blown technique. METHODS: Real-time measurements of skin movement induced by air blown on the surface were measured at various times. We investigated age-related changes in the displacement of the skin surface caused by air using various parameters. Ninety-eight female Japanese volunteers, aged from 10 to 70 years, were used in this study. RESULTS: The maximum distance (the denting state) that cheek skin moved reached 2-5 mm within 10-15 ms. After that, the skin generally recovered to its original state within 40-50 ms. The average maximum speed of movement was 0.49+/-0.08 (average+/-SD) m/s and the average recovery speed was 0.25+/-0.06 m/s. Significant changes with age were not observed in the denting state, but significant correlations with age were observed in the recovery state. The maximum recovery speed decreased significantly with age and the time required for recovery increased significantly with age. Although similar results were obtained at the corner of the mouth or the inner upper arm, different results were obtained at the below eyes and the forehead. CONCLUSIONS: This apparatus differs from other conventional instruments in that it measures the elastic properties of skin including subcutaneous tissue without contact.

trans-3,4'-Dimethyl-3-hydroxyflavanone, a hair growth enhancing active component, decreases active transforming growth factor beta2 (TGF-beta2) through control of urokinase-type plasminogen activator (uPA) on the surface of keratinocytes.

trans-3,4'-Dimethyl-3-hydroxyflavanone (t-flavanone) is a synthetic compound with hair growth enhancing activity that is effective against male pattern alopecia. t-Flavanone was designed as a derivative of astilbin, the active hair growth enhancing component of Hypericum perforatum extracts. This study was designed to elucidate the mechanism of hair growth enhancement by t-flavanone. We investigated the effects of t-flavanone on transforming growth factor beta (TGF-beta), a known catagen-inducing factor induced in hair papilla cells by male hormone. When t-flavanone was added to cocultures of human hair papilla cells and human keratinocytes, there was no change in the total level of TGF-beta2. However, levels of active TGF-beta2 were reduced, suggesting the involvement of t-flavanone in the activation pathway of TGF-beta2. In order to investigate the effects of t-flavanone on TGF-beta2 activation by human keratinocytes, we evaluated the level of active TGF-beta2 converted from the inactive form in t-flavanone-treated human keratinocytes. The amount of active TGF-beta2 was reduced compared with controls suggesting that t-flavanone suppresses the TGF-beta2 activation cascade in human keratinocytes. We then examined the activity of urokinase-type plasminogen activator (uPA), the rate-limiting enzyme in the TGF-beta2 activation cascade, in t-flavanone-treated human keratinocytes. We found that t-flavanone reduces uPA activity on the keratinocyte surface. t-Flavanone is a hair growth enhancing component that has a novel mechanism of action which suppresses TGF-beta2 activation, and thereby is expected to have therapeutic effects on other types of alopecia in addition to male pattern alopecia.

Development of a new evaluation method for cheek sagging using a Moire 3D analysis system.

BACKGROUND/AIMS: Facial sagging becomes progressively noticeable with aging. Previously developed methods to study facial sagging measure the shape of sagging skin, evaluate skin properties such as elasticity or flexibility or visually score the degree of sagging using a photo scale. However, the practical use of these methods has shortcomings and is thus limited to advanced levels of sagging. In this study, we attempted to overcome the shortcomings of those previous methods. METHODS: Fourteen points were marked on the cheek of each subject and photographed using a Moire three-dimensional (3D) camera with the subject facing first frontward and then downward. The absolute 3D coordinates (x, y, z) of the 14 points from the control point (0, 0, 0) were calculated. Subsequently, the skin surface displacements at the 14 points between the frontward and downward images were analyzed along the x, y, and z axes. The values were compared by age and by sag scores obtained from the photo scales. RESULT: The displacement values strongly correlated with age and with the sag score. In addition, this new method revealed characteristic differences of sagging between women in their 60s and those in their 70s. CONCLUSION: This method, using Moire 3D analysis, revealed slight, continuous and characteristic changes of cheek skin sagging without causing any discomfort to the subjects. These results are consistent with people's visual impression. The results indicate the usefulness of this method in skin research.

The characteristics of aromatase deficient hairless mice indicate important roles of extragonadal estrogen in the skin.

The roles of extragonadal estrogen in the skin are poorly understood, due to the lack of proper animal models. We examined the skin phenotypes of aromatase-knockout hairless (ArKO) mice and wild-type hairless (WT) mice, both of which were obtained through crossbreeding of Ar+/- mice and hairless mice. Differences in the skins of ArKO and WT mice were compared with those of ovariectomized (OVX) and control (Sham) mice. A difference was observed in the skin tone of ArKO mice, which is pale white and differs from the pinkish tone of all other mice. However, both ArKO and OVX mice similarly exhibited deteriorations of skin properties as compared to their respective controls. Furthermore, all the deteriorations were similarly amplified by chronic UVB irradiation in both ArKO and OVX mice as compared to their respective controls. The unique skin phenotype of ArKO mice was observed in sunburn reactions. Specifically, skins of ArKO mice showed no reaction after an acute UVB irradiation at dose intensities caused sunburn in others. However, follow-up observation found delayed reactions associated with brownish skin color and swelling only in ArKO mice, thereby suggesting that the role of extragonadal estrogen may be connected with the protective reactions of skin.

Crucial role of fibroblast integrins alpha2 and beta1 in maintaining the structural and mechanical properties of the skin.

BACKGROUND: In vivo functions of integrins in dermis have been investigated using several types of genetically integrin deficient mice. However, there are few studies to clarify actual in vivo functions of integrins in the dermis using normal type animals. OBJECTIVE: We investigated the actual in vivo functions of integrins in maintaining structural and mechanical properties in the normal skin by means of blocking interactions between fibroblasts and the extracellular matrix (ECM). METHODS: Intradermal injection of anti-integrin alpha2 or beta1 antibody into hairless rat skin was used to block the function of integrins. The dermal thickness was measured by an ultrasound scanner and the elastic properties of the skin was measured by Cutometer. RESULTS: Blocking integrin alpha2 or beta1 alone caused a moderate increase in dermal thickness. Blocking of integrins alpha1, alphaL or beta2 alone or blocking both integrins alpha1 and beta1 did not cause any change in the skin. However, blocking of both integrins alpha2 and beta1 caused a significant increase in dermal thickness accompanied by a marked loss of elastic properties. A clear change of the skin was observed within several minutes after injection, and continued for several hours. Treatment of human skin fibroblasts in collagen gel lattices with a mixture of anti-integrin alpha2 and beta1 antibodies in vitro caused marked and rapid morphological changes, but significant change was not observed with a treatment of alpha1, alpha2 or beta1 antibody alone. CONCLUSION: These results indicate that simultaneous functioning of integrins alpha2 and beta1 in fibroblasts play a crucial role in maintaining the structural and mechanical properties in the skin, which suggests that fibroblasts actively regulate collagen networks via these integrins.

A horse chestnut extract, which induces contraction forces in fibroblasts, is a potent anti-aging ingredient.

Contraction forces generated by non-muscle cells, such as fibroblasts, play important roles in determining cell morphology, vasoconstriction, and/or wound healing. We have searched among various plant extracts for ingredients that generate cell contraction forces using fibroblast-populated collagen gels. Using that model, we found that an extract of horse chestnuts (Aesculus hippocastanum) is able to generate such contraction forces in fibroblasts. The involvement of stress fiber formation in that response is suggested by the inhibition of such force generation by cytochalasin D and rhodamine phalloidin stain. Clinical testing of the extract was carried out using 40 healthy female volunteers. A gel formulation that included 3% of the extract was applied topically to the skin around the eye three times daily for nine weeks. The efficacy of the extract to diminish wrinkles was evaluated by visual scoring based on photo scales. After six weeks, significant decreases in the wrinkle scores at the corners of the eye or in the lower eyelid skin were observed compared with controls. After nine weeks, similar results were obtained. Taken together, our results suggest that an extract of horse chestnuts can generate contraction forces in fibroblasts and is a potent anti-aging ingredient.

Horse chestnut extract induces contraction force generation in fibroblasts through activation of Rho/Rho kinase.

Contraction forces generated by non-muscle cells such as fibroblasts play important roles in determining cell morphology, vasoconstriction, and/or wound healing. However, few factors that induce cell contraction forces are known, such as lysophosphatidic acid and thrombin. Our study analyzed various plant extracts for ingredients that induce generation of cell contraction forces in fibroblasts populating collagen gels. We found that an extract of Horse chestnut (Aesculus hippocastanum) is able to induce such contraction forces in fibroblasts. The involvement of actin polymerization and stress fiber formation in the force generation was suggested by inhibition of this effect by cytochalasin D and by Rhodamine phalloidin. Rho kinase inhibitors (Y27632 and HA1077) and a Rho inhibitor (exoenzyme C3) significantly inhibited the force generation induced by the Horse chestnut extract. H7, which inhibits Rho kinase as well as other protein kinases, also significantly inhibited induction of force generation. However, inhibitors of other protein kinases such as myosin light chain kinase (ML-9), protein kinase C (Calphostin), protein kinase A (KT5720), and tyrosine kinase (Genistein, Herbimycin A) had no effect on force generation induced by Horse chestnut extract. These results suggest that the Horse chestnut extract induces generation of contraction forces in fibroblasts through stress fiber formation followed by activation of Rho protein and Rho kinase but not myosin light chain kinase or other protein kinases.