Downregulation of Src-family tyrosine kinases by Srcasm and c-Cbl: A comparative analysis.

AIM: Elevated Src-Family tyrosine kinase (SFK) activity drives carcinogenesis in vivo and elevated SFK activity is found ubiquitously in human cancers. Although human squamous cell carcinomas (SCCs) demonstrate increased SFK activity, in silico analysis of SCCs demonstrates that only 0.4% of lesions contain mutations that could potentially increase SFK activity; similarly, a low frequency of activating SFK mutations is found in other major cancers. These findings indicate that SFK activation in cancers likely is not due to activating mutations but alternative mechanisms. To evaluate potential alternative mechanisms, we evaluated the selectivity of c-Cbl and Srcasm in downregulating native and activated mutant forms of SFKs. MATERIALS AND METHODS: We co-transfected native and activated forms of Src and Fyn with c-Cbl and Srcasm into HaCaT cells and monitored the ability of Srcasm and c-Cbl to downregulate native and activated forms of SFKs by Western blotting. The mechanism of downregulation was probed using mutant forms of Srcasm and c-Cbl and using proteosomal and lysosomal inhibition. RESULTS: The data indicate that Srcasm downregulates native Fyn and Src more effectively than c-Cbl, whereas c-Cbl preferentially downregulates activated SFK mutants, including Fyn Y528F, more effectively than Srcasm. Srcasm downregulates SFKs through a lysosomal-dependent mechanism while c-Cbl utilizes a proteosomal-dependent mechanism. CONCLUSION: Given the rarity of activating SFK mutations in human cancer, these data indicate that decreasing Srcasm level/function may represent a mechanism for increasing SFK activity in SCC and other human tumors.

Curcuminoids activate p38 MAP kinases and promote UVB-dependent signalling in keratinocytes.

Curcuminoids exhibit anti-proliferative properties in many cell lines by modulating signalling pathways to inhibit cell growth. However, the specific effects of curcuminoids on human keratinocytes are not well defined, and this situation impairs mechanistic thinking regarding potential therapeutic uses. We hypothesized that curcuminoids would modulate key growth regulatory pathways in keratinocytes to inhibit cell proliferation. To test this hypothesis, the effects of curcumin and tetrahydrocurcumin (THC) on mitogen-activated protein (MAP) kinase signalling in keratinoctyes were determined. Primary human keratinocytes treated with curcumin or THC demonstrated decreased activation of p44/42 MAP kinases but increased levels of activated p38 MAP kinases. These data suggest that curcuminoids specifically activate stress-induced MAP kinases while inhibiting mitogen-induced MAP kinases. Curcuminoids also promote the phosphorylation of p53 on serine 15 in a dose-dependent and p38-dependent manner, suggesting that these compounds may activate p53. The effects of curcuminoids on keratinocytes mirrored some aspects of UVB and could be inhibited by N-acetylcysteine, suggesting that these compounds activate p38 through a mechanism that involves glutathione depletion. Both curcuminoids induced G2/M block and inhibited keratinocyte growth, and THC increased cellular levels of p21, a known p53 transcriptional target. These data demonstrate that curcuminoids can differentially regulate MAP kinases to inhibit keratinocyte growth while inducing p21. Curcuminoids also synergize with UVB to enhance p53 phosphorylation. The findings provide a rationale for testing curcuminoids in disorders associated with impaired p53 function or in which UVB-treatment is efficacious.

Decreased Srcasm expression in hyperproliferative cutaneous lesions.

BACKGROUND: Src-family tyrosine kinases (SFKs) are signaling proteins that regulate keratinocyte proliferation and differentiation. Src-activating and signaling molecule (Srcasm) is a recently identified molecule that downregulates SFK activity and promotes keratinocyte differentiation. To determine if Srcasm expression correlates with keratinocyte differentiation, we characterized the level of Srcasm expression in some cutaneous lesions that exhibit increased keratinocyte proliferation. METHODS: Formalin-fixed sections of randomly selected seborrheic keratoses (SKs) and basal cell carcinomas (BCCs) were analyzed for Srcasm and Ki-67 immunohistochemical staining. Anti-Srcasm and anti-Ki-67 stainings were performed in parallel. RESULTS: All SKs displayed decreased Srcasm staining in areas comprised of basaloid keratinocytes that exhibited an increased Ki-67 index. Higher Srcasm staining levels were detected near pseudohorn cysts where keratinocytes exhibited a lower Ki-67 index. All multicentric and nodular BCCs displayed a prominent loss of Srcasm staining in association with a marked increase in Ki-67 staining. CONCLUSIONS: Our results support the hypothesis that Srcasm protein levels are decreased in the hyperproliferative keratinocytes found in SKs and BCCs. Increased Srcasm protein levels are detected in keratinocytes undergoing differentiation. Decreased Srcasm levels may be part of the pathophysiologic mechanism in cutaneous lesions, exhibiting keratinocyte hyperproliferation.

Activation of Src-family tyrosine kinases in hyperproliferative epidermal disorders.

BACKGROUND: Src-family tyrosine kinases (SFKs) are important regulators of keratinocyte growth and differentiation. In a broad range of cell types, persistent activation of SFKs correlates with increased cell proliferation. In this study, we determined if SFK activity is increased in cutaneous neoplasia and psoriasis, common hyperproliferative epidermal disorders. METHODS: Formalin-fixed tissue sections of unremarkable epidermis, psoriasis, actinic keratoses (AKs), squamous cell carcinoma in situ (SCIS) and squamous cell carcinoma (SCC) were subjected to immunohistochemical staining for activated SFKs. RESULTS: All psoriasis specimens displayed significantly greater staining for activated SFKs than sections of unremarkable skin. In the psoriasis biopsies, the degree of epidermal hyperplasia was proportional to the level of activated SFK staining. All AKs, SCISs and SCCs exhibited more prominent staining than sections of unremarkable epidermis. No discernable difference in activated SFK staining was seen between AKs, SCIS and SCC specimens. CONCLUSIONS: This study shows increased staining of activated SFKs in human biopsy specimens of psoriasis and cutaneous neoplasia. These data provide direct evidence for increased activation of SFKs in the pathogenesis of hyperproliferative epidermal disorders.

A malignant granular cell tumor excised with mohs micrographic surgery.

Malignant granular cell tumors are extremely rare, aggressive neoplasms displaying rapid growth and frequent associated metastatic disease. Excision and evaluation for metastatic disease are mandatory. We present a 54-year-old patient with a malignant granular cell tumor, treated with Mohs micrographic surgery. Cutaneous granular cell tumors are uncommon neoplasms, likely of perineural origin. Most follow a benign and uneventful course, with wide local excision being the treatment of choice (Enzinger, 1988). The malignant granular cell tumor is an extremely rare, aggressive variant, which provides a diagnostic challenge and management dilemma, especially with early presentation when it may be mistaken for other entities. There is also controversy regarding surgical management and follow-up of both benign and malignant granular cell tumors.