JCRCJournal Of Colon And Rectal Cancer2471-7061Open Access PubUnited StatesJCRC-14-39410.14302/issn.2471-7061.jcrc-14-394in-briefCurrent Status of Nonsteroidal Anti-Inflammatory Drugs in Colorectal Cancer Preventionnsaids in crc preventionPetrosC. Papagiorgis1*Technological Educational Institute of Athens, Faculty of Health and Caring ProfessionsCorresponding AuthorBasemAzab1Clinical Assistant Professor of Internal Medicine, Internal medicine academic faculty attending, Medical director of anticoagulation center, Staten Island University Hospital, Department of Surgery.P.C. Papagiorgis, tel:210-42 81 605, fax:213-030-6398, e-mail:ppapagiorg@teiath.gr
The authors have declared that no competing interests exist.
To date, lifestyle modification and screening are the main tools of the CRC preventive strategy. Chemoprevention, i.e. the use of specific agents (natural or chemical) with suggested antineoplastic effect, has been also proposed for the same purpose. Belonging to this category, NSAIDs have been widely investigated within the last two decades, with promising although not (yet) definitive results.123 These agents possibly act through the inhibition of the COX-1 and COX-2 enzymes - both involved in the conversion of arachidonic acid into prostaglandins, metabolites affecting inflammation and multiple potentially tumorigenic cellular processes (proliferation, apoptosis, angiogenesis etc).45 The chemopreventive effect is exerted through retardment, regression or prevention of the development of adenomas (i.e. CRC precursors) resulting in the reduction in both number and size of existing lesions along with protection against new adenoma formation1235678, whereas antitumor effect has been also reported in established carcinomas.37
Chemopreventive Mechanism
Both COX-2 (albeit not COX-1) overexpression and PGE2 increase have been observed in colorectal tumors (polyps and cancers).4 Their carcinogenic role is probably mediated through several complex molecular pathways including -besides COX-2 induction- activation of oncogenes and cytokines and growth factor signaling, such as the Wnt (APC/b-catenin) and Ras pathways (both representing major tumorigenic steps).235 Nevertheless, COX-2 upregulation and the subsequent PGE2 accumulation results in the activation of particular genes with specific tumorigenic activities, such as cyclin-D proliferative factor, Bcl-2 anti-apoptotic oncogene and VEGF.3
Thus, the COX-derived PGE2 promotes tumor growth by increasing cell proliferation, migration and invasiveness, blocking apoptosis, impairing humoral and cellular immunity and inducing angiogenesis.3457
In this context the chemopreventive effect of NSAIDs is primarily attributed to their well known pharmacological activity to inhibit either COX-2 (selective inhibitors) or both COX-1 and COX-2 (conventional NSAIDs), resulting in suppression of prostaglandin synthesis. However, NSAID antineoplastic effect may be also exerted through COX independent mechanisms, including other specific drug targets such as NF-KB, caspases, PDEs, survinin, protein kinases etc.57810 Indirect effect on COX has been also reported specifically for aspirin (besides inhibitory action) through the anti-platelet activity of the drug.7
Therefore, NSAID chemopreventive mechanism is likely dual: some effects derived from the fundamental anti-inflammatory activity (through COX inhibition), while others appear to be unrelated to this property - suppressing neoplasia through different pathways.10
Supportive Arguments
Several arguments advocate for NSAID chemoprevention in CRC: 1)the considerable burden of adenomas among Western populations (40-50% possibility of developing adenoma by the age of 7045), combined with a 5-6% lifetime risk of CRC235 2)the long duration of the progressive multi-step carcinogenic process (10-20 years) allowing intervention at early steps1583) the existing limitations (mostly economical) in wide screening implementation, leading to a frequently late clinical presentation of CRC necessitates the consideration of alternative preventive strategies58 4)the existence of well-defined and detectable hereditary CRC forms consisting a high risk group warranting such intervention12789 5)the extensive regular use of NSAIDs for various conditions (chronic inflammation, pain, cardioprotection) providing sufficient clinical experience125 6)the potentially coexisting additional NSAID preventive effect against other common cancers (e.g. breast, prostate, lung, esophageal, gastric).24
Epidemiological (cohort and case-control) studies and randomized-controlled trials reported a CRC risk reduction with NSAID use ranging between 20 and 40%, in both general population and particular risk groups (family history of CRC, personal history of polyps).1236789 The effect appears to be stronger for advanced adenomas and cases with family history (including Lynch syndrome).126789 It may also vary by anatomical segment (colon vs. rectum, proximal vs. distal colon), although data supporting this association are rather contradictory.67 Notably, for all categories, chemopreventive result appears to be depended on the administered specific drug, the dose, frequency and duration of treatment1267 and -possibly- COX-2 expression status37 (~40-50% of adenomas and 80-85% of carcinomas overexpress COX-245).
Contrasting Arguments
The main argument against routine NSAID use for CRC prevention is their serious side-effects (attributable to the diminution of physiologically important prostagladins10); gastrointestinal - especially bleeding and peptic ulcer (for all NSAIDs) - and cardiovascular (for selective COX-2 inhibitors - coxibes).125 Notably, these toxicities are age and dose-depended, discouraging NSAID chemoprevention in older individuals as well as their long-term use in high doses.127810 Coadministration of NSAIDs with proton-pump inhibitors provides satisfactory protection against peptic ulcer - thus minimizing a relatively common adverse effect.128 However, the possibility of bleeding from other anatomic areas (e.g. haemorrhagic stroke), specifically caused by aspirin use, remains unaffected - representing a severe, although rather rare (1-2 bleeds / 10.000 person-years) toxicity.27 Regarding cardiovascular toxicity from selective COX-2 inhibitors, shorter treatment duration appears as a relatively safe (specifically for celecoxib administration in individuals with low cardiovascular risk) and potentially effective option135 (although the antineoplastic effect may attenuate and vanish soon after interruption of this particular treatment78, likely being rather cytostatic than cytotoxic5).
Research Issues
In this context, the current research challenge is the definition of: 1)optimal drug (effective and safe) 2)appropriate dosage and duration of NSAID administration 3)particular target groups for this intervention. Regarding the first goal, there is no ideal drug so far, although aspirin (extensively and sufficiently investigated) emerges as the more attractive candidate for chemoprevention, combining “very probable antitumor effect”2 (lasting long after drug withdrawal) with cardioprotection.1237 Moreover, the optimum dose, duration and administration schedule (daily or other) remain unclear127 -probably depending on the specific target group(1) (see below)- although daily aspirin dose <100 mg for 5-10 years is likely adequate for both CRC prevention and cardioprotection.7 Finally, potential targets of chemoprevention (albeit with varying doses, increasing with the risk level)1 include high risk group (hereditary cases with ~80-100% lifetime risk1), intermediate (moderate) risk individuals (with family history -other than hereditary disease- or history of polyps exhibiting ~10-20% lifetime CRC risk1) and -perhaps- the 50-60 years age group of the general population (a proposal combining the possible -at this age- initiation of CRC tumorigenesis with a relatively satisfactory treatment tolerance, concurrently appearing as economically viable211). However, the existing evidence is convincing only for the first category (for which the benefits overweigh the harms), possible for the intermediate risk group and insufficient for the last category (Table 1).12379
Research issues and existing evidence for NSAID use in CRC prevention
Admittedly, further treatment personalization is necessary; for instance, among individuals with previous history of polyps only those with advanced adenomas are at high recurrence risk (~50%) - justifying chemoprevention (with probably higher dose and for longer period).1 Also, cases of low cardiovascular risk (not demanding aspirin prevention) could be eligible for chemoprevention with other conventional (e.g. sulindac) or selective (celecoxib) NSAID.13 In addition, confirmation of COX-2 expression status role, may orientate therapy preferentially to COX-2 (+) cases.37 Furthermore, ongoing investigation of potential NSAID antineoplastic effect unrelated to COX pathway, may allow identification of particular individuals eligible for chemoprevention with NSAID derivatives (modified forms) targeting other tumorigenesis-related molecules (although currently available data for such intervention are only experimental, Table 1).12710 Also, elucidation of the conflicting states regarding segmental predilection of NSAID effect may generate chemopreventive strategies adjusted to the expected site-specific risk; individuals being at higher risk for proximal cancer (females, African Americans, cholecystectomized)12 could be treated differently - with probably disparate drugs (aspirin/nonaspirin)6 - than those with reported higher risk for distal or rectal cancer (males, middle-aged and likely smokers and drinkers).312 Finally, potential interactions of NSAIDs with other CRC risk/protective factors (e.g. obesity, hormonal treatment) concurrently existing and possibly modifying their effect, should be also taken into account.313
An alternative option regarding NSAID chemoprevention is the “combination treatment”, i.e. the coadministration of two NSAIDs (e.g. aspirin / celecoxib) or the use of single NSAID plus another agent (e.g. calcium, statins or DFMO). Such strategy results in potentially synergistic and multi-pathway actions with lower doses and fewer toxicities.178 Similarly, the clinical development of NSAID derivatives, may offer another effective and less toxic option.10
Recent data suggested a considerable survival benefit from post-diagnosis NSAID administration in established carcinomas.37 Current research is underway to determine the appropriate therapeutic schedule and the specific patient categories (clinicopathological and molecular) expected to respond to this treatment, particularly among those receiving standard chemotherapy (e.g. the CALGB/SWOG80702 trial, examining celecoxib effect on survival in stage III CRC).14
Conclusions
NSAID use potentially represents an alternative considerable preventive intervention in CRC. However, adverse effects limit administration of these drugs to specific populations of increased risk (mostly hereditary cases). In future, novel drugs (or combination of drugs) along with treatment personalization (a particularly complicated issue) may allow a larger and more safe use of these agents.
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