Abstract
Heat shock proteins HSPA1/Hsp70α and HSP90AA1/Hsp90α are crucial for cancer growth but their expression pattern in colorectal polyps or whether they can be modulated by oxicams is unknown. We quantified (RTqPCR) HSPA1 and HSP90AA1 expression in 50 polyp-normal pairs in relation to polyp malignancy potential and examined the effect of piroxicam, meloxicam and five novel analogues on HSPA1 and HSP90AA1 expression (mRNA/protein) in colorectal adenocarcinoma lines. HSPA1 and HSP90AA1 were upregulated in polyps by 3- and 2.9-fold. Expression ratios were higher in polyps with higher dysplasia grade and dominant villous growth pattern, mostly a result of diminished gene expression in normal tissue. Classic oxicams had negligible/non-significant effect on HSP expression. Their most effective analogue inhibited HSPA1 protein and gene by 2.5-fold and 5.7-fold in Caco-2 and by 11.5-fold and 6.8-fold in HCT116 and HSPA1 protein in HT-29 by 1.9-fold. It downregulated HSP90AA1 protein and gene by 1.9-fold and 3.7-fold in Caco-2 and by 2-fold and 5.0-fold in HCT116. HSPA1 and HSP90AA1 are upregulated in colorectal polyps reflecting their potential for malignancy. HSPA1 in cancer cells and, to lesser degree, HSP90AA1 can be reduced by oxicam analogues with thiazine ring substituted via propylene linker by arylpiperazine pharmacophore with fluorine substituents and by benzoyl moiety.
Highlights
Recent years have been associated with the rapid development of molecularly-targeted therapies
In view of potential relevance of Hsp70α and Hsp90α in colorectal cancer (CRC) chemoprevention and lack of data on their expression in precancerous polyps, we aimed to determine the ability of piroxicam and meloxicam as well as novel oxicam analogues to modulate their expression in colorectal adenocarcinoma cell lines (Caco-2, HCT 116, and HT-29) and evaluate their expression in clinical samples of colorectal neoplasms in relation to polyp potential for malignancy
Our results showed that gene expression decreased alongside increasing polyp size, both in polyp and polypadjacent tissue, which might imply a protective role for HSPA1/Hsp70 prior neoplastic transformation
Summary
Recent years have been associated with the rapid development of molecularly-targeted therapies. In colorectal cancer (CRC), they are principally addressed to patients with gross metastatic disease or primary tumors non-amenable for curative resection. For these patients, chemotherapy is a leading treatment option, it is unsatisfactorily efficient, inducing resistance and characterized by high systemic toxicity. Potential molecular targets are researched from among pathways crucial for cancer growth, survival and progression [1]. Cancer-associated inflammation and its mediators fulfil these criteria as sustaining inflammation is included among key cancer characteristics, nurturing functionality of other hallmarks [2]. A number of anti-inflammatory drugs, including oxicams—a class of nonsteroidal anti-inflammatory drugs (NSAIDs), has displayed chemopreventive
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