Chemoprevention of Skin Cancers

Key Points

Interest in chemoprevention strategies for skin cancer is increasing.
Retinoids may play a significant role.
Oral agents are more effective for melanoma than are topicals.
As cell and cancer biology in the skin continues to be explored, it is likely that there will be an even greater interest in the study of chemopreventative therapies.

Introduction

Skin cancers account for half of all cancers in the United States (US). In a review of Medicare claims data from 1992 to 1995 in the US, non-melanoma skin cancer (NMSC) was the fifth most costly cancer to treat overall, despite the relatively low per patient cost of treatment. The burden of melanoma has also continued to increase, with the lifetime risk of getting melanoma in 2009 being about 1 in 50 for whites, and, more concerning, a significantly increased number of melanomas since the 1990s among women, with thicker melanomas, truncal melanomas, and later-stage disease in general. Successful primary prevention (prevention of disease onset) of NMSC or melanoma could dramatically reduce this burden. As a result, there has been growing interest in additional prevention approaches. In NMSCs, chemoprevention strategies have become standard in clinical practice, while in melanoma, chemoprevention is a growing area of research. We review the current data on chemoprevention strategies for NMSCs and highlight evolving areas of research in melanoma chemoprevention.

History of chemoprevention

The concept of chemoprevention, originated by Sporn et al. in 1976, has been defined as the use of specific natural or synthetic chemical agents to reverse, suppress, or prevent progression to invasive cancer. This concept fundamentally changed ideas about cancer, allowing the exploration of interventions that could prevent disease progression. Lippman and Hong further refined the concept of chemoprevention, emphasizing the importance of cancer delay; for example, ‘Chemopreventive success will be measured in part by periods of delayed cancer development, morbidity, and mortality.’

Principles and rationale for chemoprevention of non-melanoma skin cancers

The most important risk factor in the development of NMSC is sun exposure. Characteristic gene mutations in p53 and the Patched/Smoothened pathway are often noted in lesions of squamous cell carcinoma (SCC) and basal cell carcinoma (BCC), respectively. Whereas SCC is linked to cumulative sun exposure, BCC is related to intermittent and possibly childhood sun exposure. Thus, primary prevention of NMSC at the most basic level includes limiting total sun exposure and responsible behavioral modifications during episodes of intermittent exposure. Application of sunscreen with combined UVA and UVB protection, avoiding sun exposure during peak hours, and wearing protective clothing are all essential elements in reducing one's exposure to damaging ultraviolet radiation. The data supporting such recommendations, unfortunately, are weak and sometimes contradictory. Nonetheless, sunscreen use and responsible sun exposure are considered beneficial in reducing skin cancer risk.

Once DNA photodamage has already been established, preventing progression to NMSC theoretically depends on removing premalignant cells, preventing additional oncogenic mutations, repairing existing DNA damage, inhibiting downstream effects of oncogenes, or restoring functionality to lost tumor suppressor genes.

Treatment of actinic keratoses (AKs; see Chapter 10 ), the most clinically evident premalignant lesion of NMSC, is an important focus of skin cancer prevention. Recent data from the Department of Veterans Affairs Topical Tretinoin Chemoprevention Trial suggest that the risk of progression of AK to primary SCC (invasive or in situ) increases slowly over time, being 0.60% at 1 year and 2.57% at 4 years. Of note, approximately 65% of all primary SCCs and 36% of all primary BCCs diagnosed in the study cohort arose in lesions that previously were diagnosed clinically as AKs.

Although grossly abnormal and altered cells can be detected clinically (AKs, NMSC), ‘normal-appearing’ skin adjacent to such lesions likely shares at least some of the same oncogenic mutations. The concept of field cancerization explains how a field of genetically altered cells, within which one or more cells acquire further mutations and progress to form a unique NMSC, may develop from a single mutant cancer stem cell. Treatment of the AK or NMSC which develops within this field may serve more as a temporizing measure than a cure. As we learn more about cancer biology in the skin, focusing on field therapy may become even more important ( Table 8.1 ).

Table 8.1

Interventions in Prevention After DNA Damage Established (Secondary Prevention)

Encourage cellular maturation and growth arrest	Retinoids (oral and topical)
Enhance host response/immunity	Imiquimod
Selective destruction of pre-malignant cell clones	Photodynamic therapy, topical 5-fluorouracil
Improvement in endogenous repair mechanisms	T4 endonuclease
Inhibiting downstream effects of mutated genetic pathways	Inhibitors of hedgehog signaling (GDC-0449)
Restoration of lost tumor-suppressor genes	No mechanisms to date

Cellular maturation and growth arrest

Retinoids

The role of vitamin A in malignancy was first hypothesized in the 1920s when the relationship between hypovitaminosis A, epithelial changes, and stomach cancer was noted in rats. Since the 1950s, oral – and, years later, topical – retinoids have been evaluated for their role in cancer treatment and prevention. Numerous studies since have investigated the role for retinoids in cancer chemoprevention, including skin and head and neck cancer. It is not fully understood how retinoids function in chemoprevention; nonetheless, retinoids are thought to promote cellular differentiation, maturation, and growth arrest.

One landmark study in 1988 evaluated the prospective use of oral isotretinoin in patients with xeroderma pigmentosum (XP), a rare autosomal recessive disorder of the nucleotide excision repair (NER) pathway. Five of seven patients were treated with isotretinoin (2 mg/kg/day) for 2 years and exhibited a 63% reduction in NMSC in comparison with baseline. Other studies investigating low-dose (10 mg/kg) isotretinoin have not shown efficacy.

The effect of retinoids in transplant patients has also been studied. A randomized controlled trial in renal transplant recipients demonstrated a 37% reduction in the development of new SCCs while taking acitretin 30 mg/day for 6 months. A 20% relative reduction in SCC was reported in psoriasis patients using retinoids after exposure to PUVA; BCC rates, in contrast, were unaffected. Other high-risk patient groups considered good candidates for oral retinoid (isotretinoin or acitretin) therapy include patients with basal cell nevus syndrome or chronic lymphocytic leukemia, organ transplant recipients, and those patients with high incidence of cutaneous neoplasia for unclear reasons.

The use of retinoids (vitamin A [retinol]) has also been investigated in patients with moderate skin cancer risk. A randomized controlled trial of approximately 2300 patients with a history of at least 10 actinic keratoses but no more than either two SCCs or BCCs demonstrated a 26% relative risk reduction in developing subsequent SCC when treated with vitamin A 25,000 IU daily. There was no effect on development of BCC. Interestingly, when this same regimen was applied to high-risk patients (as defined by having greater than four BCCs or SCCs) no benefit was seen. The administration of retinol at these doses in the moderate-risk treatment group was well tolerated; nonetheless, leucopenia, anemia, hypercholesterolemia, abnormal liver enzymes, and anemia were noted.

Despite beneficial responses while on therapy, oral retinoid chemoprevention does not seem to last beyond the treatment period. Risks of therapy acutely include hepatic transaminitis and hepatitis, hyperlipidemia, cheilitis, eczematous cutaneous reactions, and epistaxis. Osteoporosis is the main chronic risk of therapy with retinoids.

Topical retinoids have also been examined in detail in the chemoprevention of NMSC. Most recently, an increase in all-cause mortality in patients treated with topical tretinoin was reported in the Veterans Affairs Topical Tretinoin Chemoprevention Trial. In this multi-site, prospective, blinded, randomized, controlled study, 1131 veterans were randomized to either topical tretinoin 0.1% or vehicle creams with twice daily application. The implications of this study are unclear, especially since endogenous levels of retinoids are mostly unaffected by topical tretinoin application. Future studies are required to address these surprising results. Meanwhile, the Veterans Affairs have initiated another chemoprevention trial (CSP 562), focusing on the effect of topical 5-FU treatment (compared to a vehicle control treatment) on reducing surgeries for NMSCs on the face and ears.

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