Melanin accumulation in acanthotic seborrheic keratosis: Reduced proliferation and early differentiation of keratinocytes and increased number of melanocytes.

Seborrheic keratosis (SK) is a common benign tumour, often associated with hyperpigmentation. To investigate the mechanism of melanin accumulation in SK, we have conducted comprehensive gene expression and histological analyses. We obtained five pairs of skin samples, including non-lesional and SK samples, from the backs of three male Japanese participants aged 40-59 years. To examine melanocytes and keratinocytes in SK, three pairs of skin samples were separated by laser capture microdissection into the basal layer and the other layer in the epidermis. We performed a comprehensive gene expression analysis to identify differentially expressed genes between non-lesional and SK skin, followed by gene ontology and pathway analysis. We found abnormal morphogenesis and cell proliferation in the basal layer, along with increased immune response and impaired cell differentiation and metabolism in the other layer of SK. We focused on cell proliferation and differentiation, as these are directly associated with melanin accumulation. Immunohistochemical analyses of Ki67, keratin 10, and keratin 14 demonstrated the decreases in the proliferation and early differentiation of the epidermis. Contrarily, no significant changes were observed in terminal differentiation markers, filaggrin and loricrin. Although the number of melanocytes was higher in SK than in non-lesional skin, melanogenic activity showed no difference. These results indicated that melanin accumulation in SK is caused by delayed melanin excretion due to reduced turnover around the basal and spinous layers of the epidermis and melanin production due to an increased number of melanocytes. Our findings provide new insights for therapeutic approaches in SK.

The Mast Cell-SCF-CB1 Interaction Is a Key Player in Seborrheic Keratosis.

Mast cell (MC) is an important player in the development of skin diseases, including atopic dermatitis, psoriasis, and urticaria. It is reported that MC infiltration and activation are observed around various types of tumors and speculated that MCs play key roles in their pathogenesis. As MCs in human seborrheic keratosis (SK) have not been well investigated, here we focused on the MCs in SK. The number of c-Kit and tryptase-positive MCs was significantly increased around the SK compared with the marginal lesion. Degranulated MCs were also increased around the tumors. Furthermore, MC growth factor, stem cell factor (SCF), expression within the SK was significantly upregulated compared with the marginal lesion. Interestingly, one of the cognitive regulators of SCF expression, cannabinoid receptor type 1 (CB1) immunoreactivity was downregulated within the SK. Our results suggest that MCs play important roles in the pathogenesis of SK and that SCF can be also deeply involved in the development of SKs. Our current results highlight the CB1-SCF-MC interaction as a novel mechanism of SK development and this also will be utilized for developing a novel treatment.

Hypergranulotic dyscornification: 30 cases of a striking epithelial reaction pattern.

BACKGROUND: Hypergranulotic dyscornification (HD) is a rarely reported histological reaction pattern that may be observed in solitary benign keratoses. OBJECTIVE AND METHODS: We retrospectively reviewed all cases described as displaying "hypergranulotic dyscornification" at our institution between January 1st 1990 to September 1st 2018. We excluded cases that on retrospective review displayed changes of epidermolytic hyperkeratosis. We conducted electron microscopy (EM) of two lesions. RESULTS: Thirty cases were identified in our search. Eleven patients were men and 19 were women. Their mean age was 56.9 ± 21.2 years. In contrast to previous reports, we found that HD does not spare the head and neck area. Frequent clinical impressions were inflamed seborrheic keratosis, Bowen disease or inflamed verruca. The most distinctive histopathologic finding was the presence of a prominent granular layer with clumped perinuclear keratohyaline granules. Some cases had mounds of rounded, anucleate glassy eosinophilic corneocytes in the stratum corneum. We observed one case of incidental HD occurring in an epidermoid cyst. EM of HD showed dense perinuclear bands which appeared to match areas of positive staining by keratin immunohistochemistry, without evidence of pale cytoplasmic areas devoid of keratin filaments, characteristic of epidermolytic hyperkeratosis. CONCLUSION: HD is a reproducible finding in some benign keratoses, probably because of abnormal keratinization. Awareness of this unique reaction pattern will help prevent misdiagnosis.

X-band EPR Spectroscopic Investigation of Seborrheic Keratosis.

Seborrheic keratosis (SK) is a common, noncancerous growth on the skin. However, the paramagnetic species (radicals) in pigmented SK have not been investigated yet. X-band (9 GHz) electron paramagnetic resonance (EPR) and EPR imaging (EPRI) were used to nondestructively investigate paraffin-embedded SK. Paramagnetic species in SK specimens were analyzed using linewidth, spectral pattern, and X-band EPRI. The EPR spectra of the SK showed a single line pattern. The EPR results revealed that the peak-to-peak linewidths (ΔHpp) of paraffin-embedded SK samples were 0.58 ± 0.02 mT. The g-value was 2.004 for those samples using EPR standards. EPR signal intensities of the SK samples reasonably corresponded to those for permeability values that are directly related to pigment color tone. Moreover, the two-dimensional (2D) EPRI of the SK showed the distribution of paramagnetic species in the samples with different magnitudes for the first time. The distribution corresponds to the pigmented region. We established that the paramagnetic species was melanin radicals, based on the EPR results obtained in addition to in vivo oxidation of melanin pigments. The present results suggest that EPR and 2D EPRI techniques can be useful for the radical characterization and evaluation of various types of SK.

Ki-67 and p16 Immunostaining Differentiates Pagetoid Bowen Disease From "Microclonal" Seborrheic Keratosis.

OBJECTIVES: We observed keratoses with "clonal" nests present as numerous tiny collections, in which cells in "pagetoid" array are found, a configuration we termed microclonal seborrheic keratosis (MSK). To better distinguish MSK from pagetoid Bowen disease (PBD), we investigated use of immunohistochemical staining. METHODS: Biopsy specimens of 26 MSKs, 17 PBDs, and 11 borderline cases were reviewed for histopathology and stained with p53, Ki-67, and p16. RESULTS: High expression of Ki-67 and p16 was observed in 12 (80%) of 15 PBDs and in one (4%) of 23 MSKs. Low expression of p16 and high expression of Ki-67 were observed in 16 (70%) of 23 MSKs and in two (13%) of 15 PBDs. Expression of p16 was elevated in 12 (80%) of 15 PBDs and in three (13%) of 23 MSKs (P < .0001). CONCLUSIONS: We describe a "microclonal" variant of seborrheic keratosis with morphology sometimes challenging to distinguish from PBD. High expression of p16 and Ki-67 or p16 alone favors the diagnosis of PBD over MSK.

Distinguishing between irritated seborrheic keratosis and squamous cell carcinoma in situ using BCL-2 and IMP3 immunohistochemistry.

BACKGROUND: Distinguishing an irritated seborrheic keratosis (ISK) from a squamous cell carcinoma in situ (SCCIS) can occasionally be challenging, both histologically and clinically. The purpose of this study was to determine if an immunohistochemical profile of select markers can aid in differentiating these two entities. METHODS: We randomly selected and stained 103 ISK and 111 SCCIS for EGFR, IMP3, and BCL-2. IMP3 staining was scored as negative or 0 (0% positive), 1+ (1%-25% positive), 2+ (26%-50% positive), and 3+ (>50% positive). BCL-2 and EGFR were graded as either positive or negative. RESULTS: Sixty five out of 103 (63%) ISKs were positive for BCL-2, none (0%) were positive for IMP3, and 18 (18%) were positive for EGFR. Fifteen out of 111 (14%) SCCISs were positive for BCL-2, 26 (23%) were positive for IMP3, and 27 (24%) were positive for EGFR. BCL-2 was moderately sensitive (63%) and specific (87%) in identifying ISK. IMP3 was specific (100%) but not sensitive (23%) for SCCIS. CONCLUSION: Our findings indicate that the combination of IMP3 and BCL-2 may be of diagnostic utility in distinguishing between ISK and SCCIS in daily clinical practice. EGFR immunohistochemistry did not appear to be useful in this setting.

Overexpression of Amyloid Precursor Protein Promotes the Onset of Seborrhoeic Keratosis and is Related to Skin Ageing.

Seborrhoeic keratosis (SK) is an age-related skin disease. Amyloid precursor protein (APP) plays an important role in the pathogenesis of age-related Alzheimer's disease. The aim of this study was to elucidate the expression characteristics of APP in SK tissues (n = 50), and explore whether the production of APP is related to the onset of SK and skin ageing, including ultraviolet (UV)-induced ageing, as observed in normal skin (n = 79). The results of immunohistochemistry, Western blotting and quantitative real-time PCR showed that APP and its downstream products (i.e. amyloid-ß42) were more highly expressed in SK than in paired adjacent normal skin tissues. In contrast, the expression of its key secretase (i.e. ß-secretase1) was generally low. Furthermore, APP expression was higher in UV-exposed than non-exposed skin sites, and expression in the older age group (61-85 years) was greater than that in the younger age group (41-60 years) in SK tissues (p<0.05). APP expression correlated positively with age in epidermis (p<0.05), but not in dermis. These findings suggest that overexpression of APP may promote the onset of SK and is a marker of skin ageing and UV damage. Further research will elucidate whether therapeutic mitigation of increased levels of APP in the skin might delay the onset of SK and skin ageing.

[Increased glucose uptake by seborrheic keratosis on PET scan]. / Hyperfixation intense d'une kératose séborrhéique en TEP-TDM.

BACKGROUND: Positron emission tomography (PET) is an examination based upon the uptake of a radioactive tracer by hypermetabolic cells. It is primarily used in tandem with tomodensitometry (PET-TDM) for cancer staging because of its high sensitivity and specificity for the detection of metastases. However, unusually high uptake may occur with benign tumours, including skin tumours. Herein, we report an extremely rare case of pathological uptake levels resulting from seborrhoeic keratosis. PATIENTS AND METHODS: A 55-year-old male patient with oesophageal squamous-cell carcinoma was referred to us following the discovery of an area of high marker uptake following PET-TDM and corresponding to a pigmented skin lesion. No other areas of suspect high uptake were seen. The lesion was surgically excised and histological examination indicated seborrhoeic keratosis. The histological appearance was that of standard seborrhoeic keratosis without any notable mitotic activity. DISCUSSION: PET-TDM is an examination that enables diagnosis of malignancy. However, rare cases have been described of increased marker uptake by benign cutaneous tumours such as histiocytofibroma, pilomatricoma and condyloma. To date, there have only been only very few cases of increased uptake due to seborrhoeic keratosis. CONCLUSION: This extremely unusual case of increased glucose uptake in PET-TDM due to seborrhoeic keratosis confirms that the hypermetabolic activity detected by this examination is not necessarily synonymous with malignancy and that confirmation by clinical and histological findings is essential. The reasons for increased metabolic activity within such benign tumours are not known.

Possible Involvement of F1F0-ATP synthase and Intracellular ATP in Keratinocyte Differentiation in normal skin and skin lesions.

The F1F0-ATP synthase, an enzyme complex, is mainly located on the mitochondrial inner membrane or sometimes cytomembrane to generate or hydrolyze ATP, play a role in cell proliferation. This study focused on the role of F1F0-ATP synthase in keratinocyte differentiation, and its relationship with intracellular and extracellular ATP (InATP and ExATP). The F1F0-ATP synthase ß subunit (ATP5B) expression in various skin tissues and confluence-dependent HaCaT differentiation models was detected. ATP5B expression increased with keratinocyte and HaCaT cell differentiation in normal skin, some epidermis hyper-proliferative diseases, squamous cell carcinoma, and the HaCaT cell differentiation model. The impact of InATP and ExATP content on HaCaT differentiation was reflected by the expression of the differentiation marker involucrin. Inhibition of F1F0-ATP synthase blocked HaCaT cell differentiation, which was associated with a decrease of InATP content, but not with changes of ExATP. Our results revealed that F1F0-ATP synthase expression is associated with the process of keratinocyte differentiation which may possibly be related to InATP synthesis.

Intraepidermal proliferation of Merkel cells within a seborrheic keratosis: Merkel cell carcinoma in situ or Merkel cell hyperplasia?

Intradepidermal proliferation of Merkel cells without any dermal component has been interpreted as either a hyperplastic process secondary to chronic ultraviolet radiation or a neoplastic process, namely Merkel cell carcinoma (MCC) in situ. The recent criteria that have been proffered to diagnose MCC in situ, unfortunately, are identical to those that have been applied to Merkel cell hyperplasia in the past, posing a diagnostic quandary when faced with an intraepidermal proliferation of Merkel cells. Most previously reported cases of MCC in situ have occurred within associated epithelial lesion that includes solar (actinic) keratosis and squamous-cell carcinoma in situ. Similarly, Merkel cell hyperplasia has been reported to occur in association with a variety of epithelial lesions as well as on chronically sun-damaged skin. Herein, a case of an intraepidermal proliferation of Merkel cells within a seborrheic keratosis is presented accompanied by a discussion on whether the proliferation represents another case of Merkel cell carcinoma in situ or an incidental hyperplastic process on chronically sun-damaged skin.

[(18) F]-Fluorodeoxy-d-glucose uptake-positive seborrhoeic keratosis on positron emission tomography may result from high expression of glucose transporter.

[(18) F]-Fluorodeoxy-d-glucose (FDG) positron emission tomography-computed tomography (PET-CT) is known to be highly accurate in differentiating benign lesions from malignant lesions. In rare cases, benign tumours, viral infections and sarcoidosis of the skin have been reported to show FDG uptake, but the mechanism remains unclear. Here we report the first documented case of seborrhoeic keratosis (SK) showing increased FDG uptake. FDG PET-CT can be used to detect enhanced glycolysis of tumour cells by measuring increased levels of glucose transporters (GLUTs) indicative of higher glucose uptake. GLUT1 and GLUT3 expression in this case was compared with that in PET-negative SK and two normal skin samples using quantitative polymerase chain reaction with paraffin-embedded tissue. The expression of GLUT1 and GLUT3 was higher in PET-positive SK than in PET-negative SK or normal skin. More specifically, the expression of GLUT3 was observed only in the PET-positive case. This study revealed that high GLUT1 and GLUT3 expression in SK might be associated with the uptake of FDG.

A histopathological study of melanocytic and pigmented skin lesions in patients with albinism.

BACKGROUND: Oculocutaneous albinism (OCA) is a group of genetic disorders characterized by diminished pigmentation of the skin, hair and eyes. Individuals with OCA are at increased risk to develop sun-induced skin malignancies. The incidence of malignant melanoma in OCA individuals is, however, very low. The aim of this study was to document pigmented and melanocytic skin lesions occurring in patients with OCA. METHODS: A prospective study was performed. Sixteen patients with OCA presenting at the Oncology and Dermatology Departments at Universitas Academic Hospital Annex in Bloemfontein, South Africa, were included. Selected clinically pigmented and/or melanocytic lesions were biopsied and studied by light microscopy. RESULTS: Twenty-four punch biopsies were taken. Ten dendritic freckles and 10 melanocytic nevi were confirmed histologically. The nevi, which occurred in eight patients, were found on sun-protected skin. All the freckles occurred on sun-exposed skin. Twelve patients had current or previous skin malignancies. No melanomas were present in the study population. Other skin lesions ranged from solar keratoses to squamous cell carcinomas. CONCLUSION: The majority of pigmented lesions were dendritic freckles that occurred on sun-exposed skin. None of the patients had a current or previous diagnosis of malignant melanoma.

Immunohistochemical expression of MCM2 in nonmelanoma epithelial skin cancers.

Cutaneous basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) represent 45.5% and 37.02%, respectively, of total malignant skin cancer according to the latest registry of Egyptian National Cancer Institute. Minichromosome maintenance (MCM) proteins are essential replication initiation factors. The current study examined the immunohistochemical expression of MCM2 in normal skin (10 cases), some proliferative skin lesions (6 psoriasis, 2 keratoacanthoma, and 2 seborrheic keratosis), and nonmelanoma epithelial skin cancers (20 BCC and 21 SCC). MCM2 was expressed in basal layer of normal epidermis and upregulated in proliferative skin lesions and nonmelanoma epithelial skin cancers without significant differences between the latter groups (P > 0.05). Mean and median values of MCM2 percentage of expression in BCC were higher than that of SCC (P = 0.004). MCM2 promotes proliferative capacity of the cells manifested by its expression in basal layer of epidermis, hyperproliferative skin lesions, and malignant cutaneous tumors. Proliferative capacity of BCC may be higher than SCC and this does not necessarily reflect aggressive behavior.

Distinct protein expression and activity of transglutaminases found in different epidermal tumors.

We investigated protein expression and in situ activity of transglutaminases (TGs) in normal skin and various epidermal neoplasms. In normal skin, TG1 protein expression and TG activity were found at keratinocyte cell membranes in upper epidermis and granular layer, respectively. In seborrhoeic keratosis, TG1 protein was expressed evenly throughout tumors, while TG activity increased in gradient fashion from lower tumor area to cornified layer. In squamous cell carcinoma, TG1 protein was expressed at inner side of cell membranes, whereas TG activity was found in cytoplasm predominantly at horn pearls. In basal cell carcinoma, weak TG activity was found in cytoplasm of all tumor cells without the presence of TG1 protein. Immunoblotting and in situ activity assays using specific substrate peptides confirmed that TG2, but not TG1, contributed to the TG activity. These results suggested that different expression and activation of TGs may contribute to characteristics of the skin tumors.

Activating FGFR3 mutations cause mild hyperplasia in human skin, but are insufficient to drive benign or malignant skin tumors.

Fibroblast growth factor receptor 3 (FGFR3) activating mutations are drivers of malignancy in several human tissues, including bladder, lung, cervix, and blood. However, in skin, these mutations are associated predominantly with benign, common epidermal growths called seborrheic keratoses (SKs). How epidermis resists FGFR3 mediated transformation is unclear, but previous studies have suggested that FGFR3 activation in skin keratinocytes may serve a tumor-suppressive role by driving differentiation and antagonizing Ras signaling. To define the role of FGFR3 in human normal and neoplastic epidermis, and to directly test the hypothesis that FGFR3 antagonizes Ras, we engineered human skin grafts in vivo with mutant active FGFR3 or shRNA FGFR3 knockdown. We show that FGFR3 active mutants drive mild hyperproliferation, but are insufficient to support benign or malignant tumorigenesis, either alone, or in combination with G 1-S checkpoint release. This suggests that additional cell-intrinsic or stromal cues are required for formation of benign SKs with FGFR3 mutations. Further, FGFR3 activation does not alter the growth kinetics or differentiation status of engineered human epidermal SCCs driven by Ras, and FGFR3 protein itself is dispensable for Ras-driven SCC. To extend these findings to patients, we examined a uniquely informative human tumor in which SCC developed in continuity with a SK, raising the hypothesis that one of the tumors evolved from the other. However, mutational analysis from each tumor indicates that the overlapping SK and SCC evolved independently and supports our conclusion that FGFR3 activation is insufficient to drive SCC.

Expression of lumican in hidroacanthoma simplex and clonal-type seborrheic keratosis as a potent differential diagnostic marker.

Lumican, a member of the small leucine-rich proteoglycan family, regulates the assembly and diameter of collagen fibers in the extracellular matrix of various tissues. The lumican expression correlates with pathological conditions and the growth and metastasis of various malignancies. In cutaneous neoplasms, the lumican expression is lower in advanced-stage malignant melanomas that invade the dermis than in early-stage melanomas. Furthermore, we have recently reported that the expression pattern of lumican is different from that of actinic keratosis and the Bowen disease. Lumican is positive in the poroid cells of intraepidermal sweat ducts; therefore, we examined the expression patterns of lumican in acanthotic-type seborrheic keratosis and Pinkus-type poroma followed by clonal-type seborrheic keratosis and hidroacanthoma simplex. The neoplastic cells of acanthotic-type seborrheic keratosis exhibited positive immunostaining in only 1 of 31 cases (3.23%), whereas the poroid cells of Pinkus-type poroma exhibited positive immunoreactivity in 26 of 28 patients (92.8%). In the hidroacanthoma simplex cases, lumican was expressed in poroid cells forming intraepidermal nests in 22 of 28 patients (78.6%), whereas the neoplastic cells in most cases of clonal-type seborrheic keratosis were negative for lumican. In some seborrheic keratosis cases that were positive for lumican in neoplastic cells, lumican was observed in squamoid cells but not in basaloid cells. Therefore, it is necessary to evaluate the immunoreactivity of lumican in seborrheic keratosis and in basaloid cells. These findings suggest that lumican is a potent differential diagnostic marker that distinguishes hidroacanthoma simplex from clonal-type seborrheic keratosis.

Downregulation of erythroid differentiation regulator 1 as a novel marker of skin tumors.

BACKGROUND: Erythroid differentiation regulator 1 is decreased in malignant melanoma. However, the expression of erythroid differentiation regulator 1 has not been reported in normal epidermis, vessel, nerve, dermal adnexae, and various skin tumors. METHODS: To investigate the expression of erythroid differentiation regulator 1 in normal skin and various skin tumors, immunohistochemical analysis of normal skin, epidermal tumors, sebaceous tumors, and eccrine tumors was performed. The image analysis was quantitatively performed using HistoQuant(™) software. RESULTS: Erythroid differentiation regulator 1 was strongly expressed in the nuclei of normal epidermis, sebaceous gland, eccrine gland, vessel, and nerve. Expression of erythroid differentiation regulator 1 was weak in seborrheic keratosis, sebaceous hyperplasia, and eccrine spiradenoma. Erythroid differentiation regulator 1 was rarely observed in malignant skin tumors, including squamous cell carcinoma, basal cell carcinoma, malignant melanoma, sebaceous carcinoma, and eccrine porocarcinoma. CONCLUSIONS: The expression of erythroid differentiation regulator 1 was negatively correlated with the malignant potential in various skin tumors. The results support the role of erythroid differentiation regulator 1 in cutaneous carcinogenesis and indicate its potential as a novel marker of skin tumors.

Involvement of pituitary tumor transforming gene 1 in psoriasis, seborrheic keratosis, and skin tumors.

Accumulating evidence suggests that pituitary tumor transforming gene 1 (PTTG1) is a potential biomarker for cancer malignancy and a cell-cycle regulatory protein. This investigation was performed to address the subcellular localization of PTTG1 and its possible involvement in proliferative skin diseases. In vitro primary-cultured keratinocytes and skin samples from psoriasis, seborrheic keratosis (SK), basal cell carcinoma (BCC), and squamous cell carcinoma (SCC) were investigated by immunofluorescence and real-time PCR. In normal skin, PTTG1 is localized predominantly in 10% of basal keratinocytes, while 30-40% in basal and suprabasal psoriatic keratinocytes. PTTG1 mRNA in psoriatic epidermis is about 5-fold more than that in normal one (P<0.01). PTTG1 is localized in cytoplasm in primary-cultured normal and psoriatic keratinocytes, and PTTG1 in HaCaT cells is distributed throughout the cytoplasm of metaphase cells. PTTG1 is seen at both G2 and M phases, and highest PTTG1 expression correlates with highest cyclin B1 expression and highest degree of nuclear pleomorphism at M phase. The positive rate of PTTG1 in SK, BCC, and SCC is about 10%, 20%, and more than 80%, respectively. PTTG1 siRNA, which knocks down the expression of PTTG1, reduced the invasive capacity of A431 cells. In conclusion, PTTG1 is a marker for proliferative skin diseases associated with cell cycle regulation and may aid in detection of aggressive cancers.