Solar lentigines are strongly related to sun exposure in contrast to ephelides

Solar lentigines and ephelides are different types of pigmented skin lesions predominantly present on sun-exposed skin. Both lesions are risk indicators for melanoma and non-melanoma skin cancer. Solar lentigines are considered as a sign of photodamage although well-conducted epidemiological studies are lacking on this subject. Ephelides are associated with fair skin type and red hair. The aim of the present study was to investigate the relation of sun-exposure estimates with solar lentigines and ephelides. In the Leiden Skin cancer Study 577 patients with malignant melanoma and/or non-melanoma skin cancer and 385 individuals without a history of skin cancer were studied. The presence of solar lentigines and ephelides in the face and on the back was assessed. Data on skin type, hair color, sun-exposure variables and cutaneous signs of photodamage were collected, by questionnaire and physical examination. Data were analyzed by chi-square or Student t-tests and with multivariable regression. Exposure odds ratios with 95% confidence intervals (95% CI) were calculated to estimate the relative risk for the presence of solar lentigines and ephelides dependent on signs of photodamage. The association with age was strongly positive for solar lentigines whereas it was strongly negative for ephelides (P-values for trend <0.0001). After adjustment for age, sex and skin type, solar lentigines on the back were positively associated with cumulative (P = 0.01) and intermittent (P = 0.0002) sun exposure. After adjustment, solar lentigines on the back were also associated with a history of sunburns before the age of 20 yr (P = 0.0003) and the number of sunburns in childhood (P = 0.002). Solar lentigines in the face were significantly associated with cutaneous signs of photodamage, i.e. elastosis (odds ratio 2.4, 95% CI 1.7-3.3) and actinic keratosis (odds ratio 1.8, 95% CI 1.3-2.4) whereas ephelides were not. Ephelides in the face and on the back showed an inverse association with chronic sun exposure but after adjustment theses associations disappeared. Sunburns before the age of 20 appeared to be positively associated with ephelides on the back (P = 0.04). In contrast to lentigines, ephelides were much more associated with constitutional host factors such as fair skin and/or red hair (both P < 0.0001). This study indicates that both chronic and acute sun exposure are important in the pathogenesis of solar lentigines.     

Up‐Regulation and Redistribution of Bax in Ultraviolet B‐Irradiated Melanocytes

Ultraviolet B (UVB) radiation may activate or deteriorate cultured human epidermal melanocytes, depending on the doses and culture conditions. It is also reported that cultured human epidermal melanocytes derived from different pigmentary phenotypes showed different responses to UVB radiation. In this study, we examined whether apoptosis of melanocytes can be induced by physiologic doses of UVB irradiation using cultured human epidermal melanocytes derived from oriental males of skin types III and IV. Propidium iodide staining for DNA condensation and flow cytometric analyses demonstrated the apoptotic cell death of melanocytes following UVB irradiation (0–30 mJ/cm²). The levels of p53, Bax, and Bcl‐2, determined by immunoblotting, revealed a dose‐dependent increase in p53 and Bax, but the level of Bcl‐2 remained unchanged. Confocal microscopic examination showed that Bax moved from a diffuse to a punctate distribution after UVB irradiation. However, there were no changes in the pattern of distribution of Bcl‐2. These data suggest that the high constitutional level of Bcl‐2 may protect melanocytes from UVB‐induced injury, and that apoptotic death of melanocytes may be induced by the elevation and redistribution of Bax.     

Ephelides are More Related to Pigmentary Constitutional Host Factors than Solar Lentigines

Ephelides and solar lentigines are benign pigmented spots, which are currently associated with an increased risk of skin cancer. These two pigmented spots are known to be discriminated by their clinical, histological, and electron microscopic characteristics, even though occasional misclassification can occur because of their similarity. It has also been questioned whether these spots are not one and the same. In this study, we have attempted to differentiate between these two pigmented spots with the use of a standardized protocol for clinical examinations on 272 healthy volunteers, paying particular consideration to their pigmentary and constitutional host factors. We found that solar lentigines 1) are more prevalent than ephelides, 2) increase in prevalence and number with higher age, and 3) are most prevalent on the trunk and occur more frequently in males than in females. A trend is also observed whereby ephelides 1) loose their prevalence with age, 2) become equally distributed on the face, arms, and trunk, and 3) occur more frequently in females. An intimate association of ephelides, but not solar lentigines, has been found with hair color and skin type. All of these findings are in agreement with most of those reported in the literature, supporting the view that ephelides and solar lentigines are different types of pigmented lesions.     

Up-Regulation and redistribution of Bax in ultraviolet B-irradiated melanocytes

Ultraviolet B (UVB) radiation may activate or deteriorate cultured human epidermal melanocytes, depending on the doses and culture conditions. It is also reported that cultured human epidermal melanocytes derived from different pigmentary phenotypes showed different responses to UVB radiation. In this study, we examined whether apoptosis of melanocytes can be induced by physiologic doses of UVB irradiation using cultured human epidermal melanocytes derived from oriental males of skin types III and IV. Propidium iodide staining for DNA condensation and flow cytometric analyses demonstrated the apoptotic cell death of melanocytes following UVB irradiation (0-30 mJ/cm2). The levels of p53, Bax, and Bcl-2, determined by immunoblotting, revealed a dose-dependent increase in p53 and Bax, but the level of Bcl-2 remained unchanged. Confocal microscopic examination showed that Bax moved from a diffuse to a punctate distribution after UVB irradiation. However, there were no changes in the pattern of distribution of Bcl-2. These data suggest that the high constitutional level of Bcl-2 may protect melanocytes from UVB-induced injury, and that apoptotic death of melanocytes may be induced by the elevation and redistribution of Bax.     

Analysis of the photosynthetic response induced by variation potential in geranium

Electrical signals (action and variation potentials) caused by environmental stimuli induce a number of physiological responses in plants including changes in photosynthesis; however, mechanisms of these changes remain unclear. We investigated the influence of the variation potential on photosynthesis in geranium (Pelargonium zonale) under different conditions (control, low external CO₂ concentration, and actinic light absence). The variation potential caused by lamina burning induced a reduction in photosynthesis (decreases in effective quantum yields of photosystem I and II, CO₂ assimilation rate, and stomatal conductance) in unstimulated leaves under control conditions. Changes in the majority of light-stage parameters (photosystem I and II quantum yields, coefficients of photochemical and non-photochemical quenching, quantum yield of non-photochemical energy dissipation in photosystem I due to donor-side limitation) were correlated with a decrease in CO₂ assimilation rate. The changes were similar to those caused by lowering [CO₂]; their magnitudes decreased both under low external CO₂ concentration and without actinic light. These results support the hypothesis that Calvin cycle inactivation plays a key role in photosynthetic response induced by electrical signals. However, a decrease in electron transport through the PSI acceptor side also induced by variation potential was not correlated with a decrease in the CO₂ assimilation rate and did not depend on the external CO₂ concentration or actinic light intensity. Thus, we suggest that there are two different mechanisms of light-stage inactivation induced by the variation potential in geranium: one strongly dependent on dark-stage inactivation and one weakly dependent on dark-stage inactivation.     

Ephelides are more related to pigmentary constitutional host factors than solar lentigines.

Ephelides and solar lentigines are benign pigmented spots, which are currently associated with an increased risk of skin cancer. These two pigmented spots are known to be discriminated by their clinical, histological, and electron microscopic characteristics, even though occasional misclassification can occur because of their similarity. It has also been questioned whether these spots are not one and the same. In this study, we have attempted to differentiate between these two pigmented spots with the use of a standardized protocol for clinical examinations on 272 healthy volunteers, paying particular consideration to their pigmentary and constitutional host factors. We found that solar lentigines 1) are more prevalent than ephelides, 2) increase in prevalence and number with higher age, and 3) are most prevalent on the trunk and occur more frequently in males than in females. A trend is also observed whereby ephelides 1) loose their prevalence with age, 2) become equally distributed on the face, arms, and trunk, and 3) occur more frequently in females. An intimate association of ephelides, but not solar lentigines, has been found with hair color and skin type. All of these findings are in agreement with most of those reported in the literature, supporting the view that ephelides and solar lentigines are different types of pigmented lesions.     

不同类型喀斯特植物的荧光特征及抗旱性比较

利用叶绿素荧光技术观测了五个不同类型的喀斯特植物翅荚香槐、大盔凤仙、红背叶、牛耳朵和青冈栎在不同作用光强下的光能利用特征,并且对这五种类型植物在PEG诱导水分胁迫下的抗旱性作了比较。结果表明,随着作用光强的增加,这五种植物的光化学反应能力(qP)逐渐降低,非光化学耗散作用(NPQ)明显增加,同时PSⅡ有效光化学效率(Fv′/Fm′)随之下降,导致PSⅡ电子传递量子效率(ΦPSⅡ)也明显下降,但在相同作用光强下这五个类型植物的荧光特征无明显差异。在PEG诱导水分胁迫的实验中,牛耳朵、青冈栎在PEG处理后Fv/Fm变化不明显,而红背叶Fv/Fm值下降程度最大,其次为翅荚香槐、大盔凤仙。由此推测,牛耳朵和青冈栎的耐干旱能力最强,红背叶抗旱能力最弱,翅荚香槐、大盔凤仙居中。     

Analysis of the UV-Induced Melanogenesis and Growth Arrest of Human Melanocytes

Cultured human melanocytes derived from different skin types responded to frequent treatment with ultraviolet (UV) light with increased melanin synthesis, decreased proliferation, and morphologic signs of aging. These effects were augmented by increased frequency of irradiation with 15.5 mJ/cm² UV light. Stimulation of melanogenesis by UV light involved an increase in tyrosinase activity, without any change in the amounts of either tyrosinase or tyrosinase-related protein (TRP)-1, and a decrease in the amount of TRP-2, as determined by Western blot analysis. These results are different from the mechanisms by which other melanogenic agents, such as cholera toxin and isobutyl methylxanthine, stimulated melanogenesis, whereby the amounts of tyrosinase, TRP-1 and TRP-2 were increased. The decrease in the amount of TRP-2 might be significant in that it might alter the properties of the newly synthesized melanin. The UV irradiation protocol that was followed blocked melanocytes in G₂-M phase of the cell cycle without compromising cellular viability. Following three rounds of UV irradiation, melanocytes could recover from the growth arrest and resume proliferation. Treatment with 0.1 μM α-melanocyte stimulating hormone (α-MSH) postirradiation enhanced the melanogenic effect of UV light and stimulated the melanocytes to proliferate. The effects of α-MSH on the UV induced responses and their implications on photocarcinogenesis are being further investigated. Analyzing the mechanisms by which UV light exposure affects normal melanocytes might lead to a better understanding of how these cells undergo malignant transformation, and why individuals with different skin types differ in their susceptibility to skin cancers.     

Premature senescence in human melanocytes after exposure to solar UVR: An exosome and UV‐miRNA connection

Ultraviolet radiation (UVR) can play two roles: induce cellular senescence and convert skin melanocytes into melanoma. To assess whether this conversion might rely on melanocytes having to first acquire a senescent phenotype, we studied the effects of physiological doses of UVR (UVA + UVB) on quiescent melanocytes in vitro. Repeated doses of UVR induced these melanocytes into a senescent‐like state. Additionally, these cells secrete exosomes with specific miRNAs that differ in quantity from those of the un‐irradiated melanocytes. Many of the exosomal miRNAs that were differentially enriched regulated genes comprising a “senescence core signature” and encoding factors of the senescence‐messaging secretome (SASP), while a subset of the differentially reduced miRNAs targeted DNA repair genes that have been experimentally shown to be repressed in senescent melanocytes. Thus, the selection of specific miRNAs by exosomes and their release from melanocytes after exposure to UVR have activities in inducing these cells into premature senescence.     

Production of melanocyte-specific antibodies to human melanosomal proteins: expression patterns in normal human skin and in cutaneous pigmented lesions

Multiple factors affect skin pigmentation, including those that regulate melanocyte and/or keratinocyte function. Such factors, particularly those that operate at the level of the melanosome, are relatively well characterized in mice, but the expression and function of structural and enzymatic proteins in melanocytes in human skin are not as well known. Some years ago, we generated peptide-specific antibodies to murine melanosomal proteins that proved to be instrumental in elucidating melanocyte development and differentiation in mice, but cross-reactivity of those antibodies with the corresponding human proteins often was weak or absent. In an effort to characterize the roles of melanosomal proteins in human skin pigmentation, and to understand the underlying mechanism(s) of abnormal skin pigmentation, we have now generated polyclonal antibodies against the human melanocyte-specific markers, tyrosinase, tyrosinase-related protein (TYRP1), Dopachrome tautomerase (DCT) and Pmel17 (SILV, also known as GP100). We used these antibodies to determine the distribution and function of melanosomal proteins in normal human skin (adult and newborn) and in various cutaneous pigmented lesions, such as intradermal nevi, lentigo simplex, solar lentigines and malignant melanomas. We also examined cytokeratin expression in these same samples to assess keratinocyte distribution and function. Immunohistochemical staining reveals distinct patterns of melanocyte distribution and function in normal skin and in various types of cutaneous pigmented lesions. Those differences in the expression patterns of melanocyte markers provide important clues to the roles of melanocytes in normal and in disrupted skin pigmentation.     

Effects of Melanogenesis‐Inducing Nitric Oxide and Histamine on the Production of Eumelanin and Pheomelanin in Cultured Human Melanocytes

Melanin pigments produced in human melanocytes are classified into two categories; black coloured eumelanin and reddish‐yellow pheomelanin. Stimulation of melanocytes with α‐melanocyte‐stimulating hormone (α‐MSH), one of several melanogenic factors, has been reported to enhance eumelanogenesis to a greater degree than pheomelanogenesis, which contributes to hyperpigmentation in skin. Nitric oxide (NO) and histamine are also melanogenesis‐stimulating factors that are released from cells surrounding melanocytes following ultraviolet (UV) irradiation. In this study, the effects of NO and histamine on the ratio of eumelanin and pheomelanin were examined in human melanocytes, and then compared with that of α‐MSH. The amounts of eumelanin and pheomelanin were quantified using high‐performance liquid chromatography analysis after oxidation and hydrolysis of melanin. Melanogenesis was induced by the addition of α‐MSH, NO, or histamine to melanocytes. The amount of eumelanin production significantly increased with independent stimulation by these melanogenic factors, especially histamine, while that of pheomelanin significantly increased with α‐MSH and NO, but only slightly with histamine. As a result, the ratio of eumelanin and pheomelanin increased significantly with the addition of NO or histamine. These results suggest that NO and histamine, as in the case of α‐MSH, may contribute to UV‐induced hyperpigmentation by enhancing eumelanogenesis.     

A genome‐wide association study in Caucasian women suggests the involvement of HLA genes in the severity of facial solar lentigines

Solar lentigines are a common feature of sun‐induced skin ageing. Little is known, however, about the genetic factors contributing to their development. In this genome‐wide association study, we aimed to identify genetic loci associated with solar lentigines on the face in 502 middle‐aged French women. Nine SNPs, gathered in two independent blocks on chromosome 6, exhibited a false discovery rate below 25% when looking for associations with the facial lentigine score. The first block, in the 6p22 region, corresponded to intergenic SNPs and also exhibited a significant association with forehead lentigines (P = 1.37 × 10^?8). The second block, within the 6p21 HLA region, was associated with decreased HLA‐C expression according to several eQTL databases. Interestingly, these SNPs were also in high linkage disequilibrium with the HLA‐C*0701 allele (r² = 0.95). We replicated an association recently found by GWAS in the IRF4 gene. Finally, a complementary study on 44 selected candidate SNPs revealed novel associations in the MITF gene. Overall, our results point to several mechanisms involved in the severity of facial lentigines, including HLA/immunity and the melanogenesis pathway.     

Production of Melanocyte‐Specific Antibodies to Human Melanosomal Proteins: Expression Patterns in Normal Human Skin and in Cutaneous Pigmented Lesions

Multiple factors affect skin pigmentation, including those that regulate melanocyte and/or keratinocyte function. Such factors, particularly those that operate at the level of the melanosome, are relatively well characterized in mice, but the expression and function of structural and enzymatic proteins in melanocytes in human skin are not as well known. Some years ago, we generated peptide‐specific antibodies to murine melanosomal proteins that proved to be instrumental in elucidating melanocyte development and differentiation in mice, but cross‐reactivity of those antibodies with the corresponding human proteins often was weak or absent. In an effort to characterize the roles of melanosomal proteins in human skin pigmentation, and to understand the underlying mechanism(s) of abnormal skin pigmentation, we have now generated polyclonal antibodies against the human melanocyte‐specific markers, tyrosinase, tyrosinase‐related protein 1 (TYRP1), Dopachrome tautomerase (DCT) and Pmel17 (SILV, also known as GP100). We used these antibodies to determine the distribution and function of melanosomal proteins in normal human skin (adult and newborn) and in various cutaneous pigmented lesions, such as intradermal nevi, lentigo simplex, solar lentigines and malignant melanomas. We also examined cytokeratin expression in these same samples to assess keratinocyte distribution and function. Immunohistochemical staining reveals distinct patterns of melanocyte distribution and function in normal skin and in various types of cutaneous pigmented lesions. Those differences in the expression patterns of melanocyte markers provide important clues to the roles of melanocytes in normal and in disrupted skin pigmentation.     

Melanin concentrating hormone. III. Melanin concentrating hormone (MCH): the message sequence

Melanin concentrating hormone (MCH) is a heptadecapeptide synthesized by the hypothalamus and secreted by the neurohypophysis of the teleost pituitary gland. MCH stimulates melanosome aggregation within teleost melanocytes but also exhibits MSH-like (melanosome dispersing) activity on tetrapod (frog and lizard) melanocytes. We have synthesized a number of MCH analogues to determine the essential features of the primary structure necessary to stimulate either melanosome aggregation or dispersion in fish or tetrapod melanocytes, respectively. An analysis of the potencies and actions of these analogues on vertebrate melanocytes is provided and demonstrates that the two activities have different structural requirements.     

Nerve Growth Factor Rescues Pigment Cells from Ultraviolet-Induced Apoptosis by Upregulating BCL-2 Levels

Apoptosis plays an important role in eliminating dysfunctional damaged cells. For skin, the best characterized injurious environmental agent is ultraviolet (UV) irradiation. Most of the damaging UV irradiation is absorbed in the epidermis and leads to apoptosis of keratinocytes. However, epidermal melanocytes appear to be protected from UV-induced apoptosis. We now report that in pure cultures melanocytic cells undergo characteristic apoptosis after physiologic UV exposures. However, nerve growth factor (NGF) supplementation protects them from this programmed cell death. Furthermore, we show that NGF protects melanocytic cells from UV-induced apoptosis by upregulating BCL-2 protein in these cells and that prior downregulation of BCL-2 abrogates the NGF protective effect on melanocytes. Our data suggest that NGF, known to be constitutively produced by epidermal keratinocytes and induced in these cells after UV irradiation, may preserve the population of cutaneous melanocytes that would otherwise be depleted by casual sun exposure.     

Fibroblasts play a regulatory role in the control of pigmentation in reconstructed human skin from skin types I and II

Human melanocytes in monolayer culture are extremely dependent on a wide range of soluble signals for their proliferation and melanogenesis. The advent of three-dimensional models of reconstructed skin allows one to ask questions of how these cells are regulated within a setting which more closely approximates normal skin. The purpose of this study was to investigate to what extent melanocytes within a reconstructed skin model are sensitive to regulation by dermal fibroblasts, basement membrane (BM) proteins and the addition of alpha-melanocyte-stimulating hormone (alpha-MSH). Sterilized acellular de-epidermized dermis (prepared to retain BM proteins or deliberately denuded of BM by enzymatic treatment) from skin type I or II was reconstituted with fibroblasts, melanocytes and keratinocytes. In all but one case (9/10), cell donors were skin type I or II. The presence of BM antigens was found to be necessary for positional orientation of the melanocytes; in the absence of BM, melanocytes moved into the upper keratinocyte layer pigmenting spontaneously. Addition of fibroblasts suppressed the extent of spontaneous pigmentation of melanocytes within this model. Neither alpha-MSH nor cholera toxin induced pigmentation in this model despite the fact that melanocytes clearly had the ability to synthesize pigment.     

Effects of melanogenesis-inducing nitric oxide and histamine on the production of eumelanin and pheomelanin in cultured human melanocytes

Melanin pigments produced in human melanocytes are classified into two categories; black coloured eumelanin and reddish-yellow pheomelanin. Stimulation of melanocytes with alpha-melanocyte-stimulating hormone (alpha-MSH), one of several melanogenic factors, has been reported to enhance eumelanogenesis to a greater degree than pheomelanogenesis, which contributes to hyperpigmentation in skin. Nitric oxide (NO) and histamine are also melanogenesis-stimulating factors that are released from cells surrounding melanocytes following ultraviolet (UV) irradiation. In this study, the effects of NO and histamine on the ratio of eumelanin and pheomelanin were examined in human melanocytes, and then compared with that of alpha-MSH. The amounts of eumelanin and pheomelanin were quantified using high-performance liquid chromatography analysis after oxidation and hydrolysis of melanin. Melanogenesis was induced by the addition of alpha-MSH, NO, or histamine to melanocytes. The amount of eumelanin production significantly increased with independent stimulation by these melanogenic factors, especially histamine, while that of pheomelanin significantly increased with alpha-MSH and NO, but only slightly with histamine. As a result, the ratio of eumelanin and pheomelanin increased significantly with the addition of NO or histamine. These results suggest that NO and histamine, as in the case of alpha-MSH, may contribute to UV-induced hyperpigmentation by enhancing eumelanogenesis.     

Maintenance of immune hyporesponsiveness to melanosomal proteins by DHICA-mediated antioxidation: Possible implications for autoimmune vitiligo

Melanocyte destruction in the skin of vitiligo patients has been considered to be a consequence of an autoimmune response against melanosomal proteins. However, little is known about the molecular mechanisms by which the immune system recognizes these sequestered intracellular self-proteins, which are confined in specialized organelles termed melanosomes, and is provoked into an autoimmune response to melanocytes. Here, we utilize a sucrose density-gradient ultracentrifugation protocol to enrich melanosomal components from dopachrome tautomerase (Dct)-mutant or wild-type melanocytes exposed to a pulse of hydrogen peroxide at a noncytotoxic concentration to evaluate their immunogenicity in mice challenged with the corresponding melanosomal proteins. The results demonstrate that enhanced humoral and cellular immune responses to a challenge with late-stage melanosomal proteins, especially with those derived from Dct-mutant melanocytes, are found in the immunized mice. To elucidate whether a reduced 5,6-dihydroxyindole-2-carboxylic acid (DHICA) content in melanin might cause a loss in antioxidative protection to the proteins, we incubated these melanosomal proteins in vitro with synthetic 5,6-dihydroindole (DHI)-melanin or DHI/DHICA (1:1)-melanin and then used them to immunize mice. T cell proliferation and IgG antibody responsiveness to the challenges were significantly induced by melanosomal proteins treated with DHI-melanin, but not by those treated with DHI/DHICA (1:1)-melanin. Moreover, we observed that melanosomal proteins derived from Dct-mutant melanocytes are subject to oxidative modifications that alter their antigenic configurations to attain an enhanced immunogenicity compared with those derived from wild-type melanocytes. From these results, we conclude that DHICA-mediated antioxidation plays a critical role in the maintenance of immune hyporesponsiveness to melanosomal proteins.     

人KRT2促进体外培养的羊驼皮肤黑色素细胞的黑色素生成

基因表达谱显示,绵羊角蛋白2（keratin2, Krt2）的mRNA在不同毛色皮肤的表达不同,暗示Krt2 基因可能对皮肤黑色素生成有一定的影响。为探索角蛋白2对体外培养的羊驼皮肤黑色素细胞黑色素生成的影响,首先采用PCR扩增产物测序,结合DNAMAN 软件比对分析发现,羊驼Krt2 编码序列（cDNA）与NCBI公布的人KRT2高度同源（91%）;将人KRT2添加于培养的羊驼皮肤黑色素细胞,观察人KRT2对羊驼皮肤黑色素细胞黑色素的生成作用。免疫组织化学显示,外源性的人KRT2处理羊驼皮肤黑色素细胞72 h后,黑色素细胞的细胞质中Krt2表达增强。实时定量PCR及Western 印迹实验揭示,与胎牛血清清蛋白处理的羊驼皮肤黑色素细胞比较,1 ng/mL、10 ng/mL和100 ng/mL人KTR2处理的羊驼皮肤黑色素细胞酪氨酸酶（Tyr）、酪氨酸相关蛋白-1（Tyrp1）、小眼畸形相关转录因子（Mitf）基因表达明显上调（P <0.05）;尤其在添加10 ng/mL KTR2的细胞中,3个基因的mRNA相对表达水平升高尤其显著,分别是对照细胞的4倍、10倍和12.9倍（P<0.01）,蛋白质相对表达水平分别是对照细胞的2倍、2.1倍和1.7倍（P<0.01）。分光光度法测量A490结果证明,1 ng/mL、10 ng/mL和100 ng/mL人KTR2处理的羊驼皮肤黑色素细胞产生的黑色素含量分别是对照细胞的1.3倍（P <0.05）、1.8倍（P <0.01）和1.5倍（P <0.05）。上述结果说明,人KTR2处理可通过刺激羊驼皮肤黑色素细胞黑色素合成相关信号通路,促进黑色素的合成。