Cholinergic Stress Signals Accompany MicroRNA-Associated Stereotypic Behavior and Glutamatergic Neuromodulation in the Prefrontal Cortex.

Stereotypic behavior (SB) is common in emotional stress-involved psychiatric disorders and is often attributed to glutamatergic impairments, but the underlying molecular mechanisms are unknown. Given the neuro-modulatory role of acetylcholine, we sought behavioral-transcriptomic links in SB using TgR transgenic mice with impaired cholinergic transmission due to over-expression of the stress-inducible soluble 'readthrough' acetylcholinesterase-R splice variant AChE-R. TgR mice showed impaired organization of behavior, performance errors in a serial maze test, escape-like locomotion, intensified reaction to pilocarpine and reduced rearing in unfamiliar situations. Small-RNA sequencing revealed 36 differentially expressed (DE) microRNAs in TgR mice hippocampi, 8 of which target more than 5 cholinergic transcripts. Moreover, compared to FVB/N mice, TgR prefrontal cortices displayed individually variable changes in over 400 DE mRNA transcripts, primarily acetylcholine and glutamate-related. Furthermore, TgR brains presented c-fos over-expression in motor behavior-regulating brain regions and immune-labeled AChE-R excess in the basal ganglia, limbic brain nuclei and the brain stem, indicating a link with the observed behavioral phenotypes. Our findings demonstrate association of stress-induced SB to previously unknown microRNA-mediated perturbations of cholinergic/glutamatergic networks and underscore new therapeutic strategies for correcting stereotypic behaviors.

Scleromalacia perforans: a case report.

BACKGROUND: Scleromalacia perforans is a rare ocular manifestation of rheumatoid arthritis which can potentially lead to blindness and is a late consequence in the course of the disease. It is an unusual finding for it to be present in a patient with joint pain without any rheumatologic progression of disease. CASE PRESENTATION: We describe a rare case of scleromalacia perforans and orbital inflammatory disease in a 40-year-old Pakistani woman with apparently no associated rheumatologic deformity. It is rare in the sense that we usually see scleromalacia perforans with fixed deformities of rheumatoid arthritis in the hands or progressed systemic complications but not as a starting landmark of disease. She presented to us with pronounced eye manifestation which on further inquiry and investigation was found to be associated with rheumatoid arthritis. There was perforation of left globe on presentation and the right one was preserved. She visited various physicians and ophthalmologists and was treated with topical and systemic antibiotics but ended up losing sight in her left eye. CONCLUSION: We conclude that ocular manifestations, however rare they are, should be foreseen, investigated, and treated in patients with suspected arthritis as the complication is grave and sight threatening.

Flavopiridol increases therapeutic ratio of radiotherapy by preferentially enhancing tumor radioresponse.

PURPOSE: Recently we reported that inhibition of cyclin-dependent kinases (cdks) by flavopiridol enhanced the radiation response of murine ovarian carcinoma cells in culture. The purpose of this investigation was to extend these studies to in vivo tumor models and test whether flavopiridol increases the therapeutic ratio of radiotherapy. METHODS AND MATERIALS: Three transplantable syngeneic mouse tumors were used: mammary carcinoma (MCa-29), ovarian carcinoma (OCa-I), and a lymphoma (Ly-TH). Tumor treatment endpoints included growth delay, cure, and spontaneous lung metastases (OCa-I tumor). The normal tissue endpoint was survival of jejunal crypt cells quantified microscopically. A range of flavopiridol doses from 0.625 to 5.0 mg/kg were given systemically once or twice daily over 5, 10, or 20 days. Combined therapy flavopiridol treatments were initiated either several days before or shortly after the start of single dose or daily fractionated radiotherapy. RESULTS: The major findings of this study are that all three tumors treated with flavopiridol alone responded by tumor growth delay. Two of the tumors (MCa-29 and Ly-TH) responded in a schedule-dependent manner with larger radiation enhancement factors when flavopiridol treatment was started a few hours after irradiation (radioenhancement factors [EF] Ly-TH = 2.04, EF MCa-29 = 1.50 for single dose irradiation). When combined with fractionated irradiation (2.6 Gy daily for 10 or 20 days), flavopiridol enhanced the response of the MCa-29 tumor by a factor of 1.25-1.46. A fractional radiation dose of 6 Gy in combination with flavopiridol produced a 62.5% cure rate compared with 25% tumor cure for radiation alone. A novel finding of this study was the demonstration of antimetastatic activity of flavopiridol in addition to its effect on the local primary tumor. Both the incidence and absolute number of lung metastasis were reduced when flavopiridol followed surgical removal of the large (10 mm) primary leg tumor. The normal jejunum treated with flavopiridol and radiation responded in a schedule independent manner and the degree of radioenhancement (EF, 1.05-1.06) was much less than for any of the tumors studied. CONCLUSIONS: Therapeutic gain was achieved when flavopiridol treatment was initiated either before or after the start of radiotherapy. Flavopiridol shows promising clinical potential administered alone or in combination with other cytotoxic agents, including both chemotherapy and radiotherapy.

Potentiation of tumor response to radiation or chemoradiation by selective cyclooxygenase-2 enzyme inhibitors.

Cyclooxygenase-2 (COX-2) is an enzyme expressed primarily in pathologic states, such as inflammatory disorders and cancer, where it mediates prostaglandin production. Its overexpression is associated with more aggressive biologic tumor behavior and adverse patient outcome. Increasing evidence shows that agents that selectively inhibit COX-2 enhance tumor response to radiation or chemotherapeutic agents. This article gives an overview of some of this evidence. In addition, we describe new results showing that celecoxib, a selective COX-2 inhibitor, enhanced response of A431 human tumor xenografts in nude mice to radiation by an enhancement factor (EF) of 1.43 and to the chemotherapeutic agent docetaxel by an EF of 2.07. Celecoxib also enhanced tumor response when added to the combined docetaxel plus radiation treatment (EF = 2.13). Further experiments showed that selective COX-2 inhibitors enhanced tumor cell sensitivity to ionizing radiation, involving inhibition of cellular repair from radiation damage and cell cycle redistribution as mechanisms for some cell types. The results show that selective COX-2 inhibitors have the potential to improve tumor radiotherapy or radiochemotherapy, and this therapeutic strategy is currently under clinical testing.