A rare case of poorly differentiated mixed neuroendocrine-nonneuroendocrine tumor of the caecum with long term survival: A case report.

A 59-year-old woman presented with flushing attacks accompanied by tachycardia and hypotension, which lasted approximately 30 to 60 minutes, underwent 18 years ago a gastrointestinal tumor resection. The histologic examination revealed a poorly differentiated mixed neuroendocrine/adenocarcinoma located in the caecum with regional metastases. Postoperatively, the patient received combined chemotherapy of 5-fluorouracil with interferon for six months and since has remained asymptomatic. Her examination revealed positivity for chromogranin A (CgA) and a-Fetoprotein (aFP) (580 ng/24 h, normal range 27-94, and 10 IU/mL, normal range 0-6, respectively). Urinary 5-hydroxy indole acetic acid excretion was remarkably high (41.8 mg/24 h, normal range 2-10 mg/24 h). An abdominal Magnetic Resonance Imaging scan revealed multiple focal loci in the liver whose histological examination revealed a carcinoid tumor confirmed by an Octreoscan. Additional uptake was noted on the right shoulder and the right sternum-clavicle joint confirmed by Tc-99m MDP scan. The patient received somatostatin analogue therapy followed by long-acting release octreotide analogue therapy (30 mg/month) showing a partial improvement of relevant biomarkers. Two years later, carcinoid syndrome symptoms reappeared and due to the tumors expression of somatostatin receptors the patient received peptide receptor radionuclide therapy with 177Lu-DOTATATE that resulted in both clinical and biochemical improvements.

Excessive Leukocytosis Leading to a Diagnosis of Aggressive Thyroid Anaplastic Carcinoma: A Case Report and Relevant Review.

INTRODUCTION: Leukocytosis and particularly neutrophilia are usually caused by acute infection, inflammation, and myeloproliferative neoplasms. However, leukocytosis can also occur in patients with malignancy either due to bone marrow metastases or in the context of a paraneoplastic syndrome. CASE PRESENTATION: An 86-year-old female was admitted to our hospital due to marked leukocytosis (white blood cells [WBC] >40,000/µL), neutrophilia, and monocytosis. She was afebrile and reported hoarseness and mild difficulty swallowing. Upon physical examination, lung auscultation revealed inspiratory wheezing and a non-tender mass was observed in the anterior midline of the neck. Blasts and immature WBC were not found, and polymerase chain reaction for the detection of BCR/ABL gene was negative. A mass (5.4 cm in diameter) of abnormal parenchymal composition with calcifications occupying the right lobe, was seen on thyroid ultrasound. Cytology, after fine-needle aspiration, showed an anaplastic thyroid carcinoma (ATC). The cervical and chest computed tomography scan revealed a low-density lesion with calcifications that shifts and presses the trachea and multiple lung nodular lesions bilaterally. Since the case was inoperable and the airway was severely obstructed, a DUMON stent was placed. Biopsy of specimens from the trachea lesion revealed a tumor with significant atypical cells and focal squamoid features. The patient's WBC increased to 72,470/µL. Additionally, interleukin-6 (IL-6) was markedly elevated (20.2 pg/mL). The patient passed away due to respiratory arrest 55 days after her initial admission. DISCUSSION: Excessive leukocytosis in a patient, having excluded infectious disease and myelodysplastic syndrome, could represent a manifestation of a paraneoplastic syndrome due to various cytokines secretion from the tumor. In our case, ATC synthesized and secreted IL-6, which seems to be the cause of severe leukocytosis.

Skin manifestations of growth hormone-induced diseases.

The human skin is a well-organized organ bearing different types of cells in a well-structured interference to each other including epidermal and follicular keratinocytes, sebocytes, melanocytes, dermal papilla cells and fibroblasts, endothelial cells, sweat gland cells as well as nerves. Several hormones act on different cell types of the skin, while it is also considered an endocrine organ secreting hormones that act at several sites of the organism. GH receptors are found in almost all cell types forming the skin, while IGF-1 receptors' expression is restricted to the epidermal keratinocytes. Both Growth Hormone (GH) excess, as in the case of Acromegaly in adults, or Gigantism in growing children, and GH deficiency states lead to skin manifestations. In case of GH excess the main dermatological findings are skin thickening, coarsening of facial features, acrochordons, puffy hands and feet, oily skin and hyperhidrosis, while GH deficiency, on the contrary, is characterized by thin, dry skin and disorder of normal sweating. Moreover, special disorders associated with GH excess may have specific characteristics, as is the case of café-au-lait spots in Neurofibromatosis, or big café-au-lait skin hyperpigmented regions with irregular margins, as is the case in McCune-Albright syndrome. Meticulous examination of the skin may therefore contribute to the final diagnosis in cases of GH-induced disorders.

Activation of membrane androgen receptors potentiates the antiproliferative effects of paclitaxel on human prostate cancer cells.

Genomic signaling mechanisms require a relatively long time to get into action and represent the main way through which steroid hormones affect target cells. In addition, steroids may rapidly activate cellular functions by non-genomic signaling mechanisms involving membrane sites. Understanding in depth the molecular mechanisms of the non-genomic action represents an important frontier for developing new and more selective pharmacologic tools for endocrine therapies. In the present study, we report that membrane-impermeable testosterone-bovine serum albumin (BSA) acts synergistically with paclitaxel in modifying actin and tubulin cytoskeleton dynamics in LNCaP (androgen sensitive) and DU-145 (androgen insensitive) human prostate cancer cell lines. In addition, coincubation of either cell line with testosterone-BSA and paclitaxel induced inhibition of cell proliferation and apoptosis. Finally, in vivo experiments in LNCaP and DU-145 tumor xenografts in nude mice showed that both agents decrease tumor mass, whereas testosterone-BSA enhances the effect of paclitaxel. Our findings suggest that chronic activation of membrane androgen receptors in vitro and in vivo facilitates and sustains for a longer time the antitumoral action of cytoskeletal acting agents.

Membrane testosterone binding sites in prostate carcinoma as a potential new marker and therapeutic target: study in paraffin tissue sections.

BACKGROUND: Steroid action is mediated, in addition to classical intracellular receptors, by recently identified membrane sites, that generate rapid non-genomic effects. We have recently identified a membrane androgen receptor site on prostate carcinoma cells, mediating testosterone rapid effects on the cytoskeleton and secretion within minutes. METHODS: The aim of this study was to investigate whether membrane androgen receptors are differentially expressed in prostate carcinomas, and their relationship to the tumor grade. We examined the expression of membrane androgen receptors in archival material of 109 prostate carcinomas and 103 benign prostate hyperplasias, using fluorescein-labeled BSA-coupled testosterone. RESULTS: We report that membrane androgen receptors are preferentially expressed in prostate carcinomas, and they correlate to their grade using the Gleason's microscopic grading score system. CONCLUSION: We conclude that membrane androgen receptors may represent an index of tumor aggressiveness and possibly specific targets for new therapeutic regimens.

Monomeric and oligomeric flavanols are agonists of membrane androgen receptors.

The present work reports a new mode of action of the naturally occurring flavanols catechin and epicatechin and their dimers B2 and B5, in the breast cancer T47D cell line, namely, their interaction with membrane androgen receptors. We show that monomeric and dimeric flavanols are complete (B2) or partial displacers of radiolabeled testosterone bound on T47D membranes, with affinities ranging from 1.7 (B5) to 82.2 nM (B2). In addition, they trigger the phosphorylation of the same signaling molecules (FAK, PI3K) as testosterone-BSA, minutes after binding to membrane receptors, leading to actin cytoskeleton polymerization and redistribution, with formation of filopodia and lamellipodia. The PI3K inhibitor wortmannin reverts the effect of polyphenols and testosterone-BSA, providing additional evidence about activation of a similar signaling cascade. Incubation of T47D cells for more than 2 h with polyphenols or testosterone-BSA induces apoptosis, which follows the same time-dependent pattern. We conclude that flavanols (monomers or dimers) are agonists of membrane androgen receptors and could be used as testosterone-protein conjugates for the management of tumors, in which, application of testosterone-BSA induces regression, providing additional data about the mechanism of their antiproliferative action.

Membrane androgen receptor activation induces apoptotic regression of human prostate cancer cells in vitro and in vivo.

Nongenomic androgen actions imply mechanisms different from the classical intracellular androgen receptor (iAR) activation. We have recently reported the identification of a membrane androgen receptor (mAR) on LNCaP human prostate cancer cells, mediating testosterone signal transduction within minutes. In the present study we provide evidence that activation of mAR by nonpermeable, BSA-coupled testosterone results in 1) inhibition of LNCaP cell growth (with a 50% inhibitory concentration of 5.08 nM, similar to the affinity of testosterone for membrane sites); 2) induction in LNCaP cells of both apoptosis and the proapoptotic Fas protein; and 3) a significant decrease in migration, adhesion, and invasion of iAR-negative DU145 human prostate cancer cells. These actions persisted in the presence of antiandrogen flutamide or after decreasing the content of iAR in LNCaP cells by iAR antisense oligonucleotides. Testosterone-BSA was also effective in inducing apoptosis of DU145 human prostate cancer cells, negative for iAR, but expressing mAR sites. In LNCaP cell-inoculated nude mice, treatment with testosterone-BSA (4.8 mg/kg body weight) for 1 month resulted in a 60% reduction of tumor size compared with that in control animals receiving only BSA, an effect that was not affected by the antiandrogen flutamide. Our findings suggest that activators of mAR may represent a new class of antitumoral agents of prostate cancer.