Background and Purpose-Diaspirin cross-linked hemoglobin (DCLHb) is a purified, cell-free human hemoglobin solution. In animal stroke models its use led to a significant reduction in the extent of brain injury. The primary objective of this study was to evaluate the safety of DCLHb in patients with acute ischemic stroke. Methods-DCLHb or saline was administered to 85 patients with acute ischemic stroke in the anterior circulation, within 18 hours of onset of symptoms, in a multicenter, randomized, single-blind, dose-finding, controlled safety trial, consisting of 3 parts: 12 doses of 25, 50, and 100 mg/kg DCLHb over 72 hours. Results-DCLHb caused a rapid rise in mean arterial blood pressure. The pressor effect was not accompanied by complications or excessive need for antihypertensive treatment. Two patients in the 100 mg/kg group had adverse events that were possibly drug related: one suffered fatal brain and pulmonary edema, the other transient renal and pancreatic insufficiency. Multivariate logistic regression analysis showed that a severe stroke at baseline and treatment with DCLHb (OR, 4.0; CI, 1.4 to 12.0) were independent predictors of a worse outcome (Rankin Scale score of 3 to 6) at 3 months. Conclusions-Outcome scale scores were worse in the DCLHb group, and more serious adverse events and deaths occurred in DCLHb-treated patients than in control patients. We recommend that additional safety studies be performed, preferably with a second generation, genetically engineered hemoglobin. (Stroke. 1999;30:993-996.)
Background and Purpose — We sought to investigate the apparently high risk of early death after an ischemic stroke among patients with atrial fibrillation (AF), identify the main factors associated with early death, and assess the effect of treatment with different doses of subcutaneous unfractionated heparin (UFH) given within 48 hours. Methods — We studied the occurrence of major clinical events within 14 days among 18 451 patients from the International Stroke Trial, first for all treatment groups combined. Then, among patients with AF, we examined the effects of treatment with subcutaneous UFH started within 48 hours and continued until 14 days after stroke onset. Results — A total of 3169 patients (17%) had AF. Seven hundred eighty-four patients were allocated to UFH 12 500 IU SC BID, 773 to UFH 5000 IU SC BID, and 1612 to no heparin. Within each of these groups, half of the patients were randomly assigned to aspirin 300 mg once daily. Compared with patients without AF, patients with AF were more likely to be female (56% versus 45%), to be old (mean age, 78 versus 71 years), to have an infarct on prerandomization CT (57% versus 47%), and to have impaired consciousness (37% versus 20%). The initial ischemic stroke type was more often a large-artery infarct (36% versus 21%). A lacunar stroke syndrome was less common (13% versus 26%). Death within 14 days was more common in patients with AF (17% versus 8%) and more often attributed to neurological damage from the initial stroke (10% versus 4%). The frequency of recurrent ischemic or undefined stroke was not significantly different (3.9% versus 3.3%). The proportion of AF patients with further events within 14 days allocated to UFH 12 500 IU (n=784), UFH 5000 IU (n=773), and to no-heparin (n=1612) groups were as follows: ischemic stroke, 2.3%, 3.4%, 4.9% ( P =0.001); hemorrhagic stroke, 2.8%, 1.3%, 0.4% ( P <0.0001); and any stroke or death, 18.8%, 19.4% and 20.7% ( P =0.3), respectively. No effect of heparin on the proportion of patients dead or dependent at 6 months was apparent. Conclusions — Acute ischemic stroke patients with AF have a higher risk of early death, which can be explained by older age and larger infarcts but not by a higher risk of early recurrent ischemic stroke, although slightly more patients with AF died from a fatal recurrent stroke of ischemic or unknown type (1.3% versus 0.9%). In patients with AF the absolute risk of early recurrent stroke is low, and there is no net advantage to treatment with heparin. These data do not support the widespread use of intensive heparin regimens in the acute phase of ischemic stroke associated with AF.
The BRMS1 metastasis suppressor interacts with the protein AT-rich interactive domain 4A (ARID4A, RBBP1) as part of SIN3⅐histone deacetylase chromatin remodeling complexes. These transcriptional co-repressors regulate diverse cell phenotypes depending upon complex composition. To define BRMS1 complexes and their roles in metastasis suppression, we generated BRMS1 mutants (BRMS1 mut ) and mapped ARID4A interactions. BRMS1L174D disrupted direct interaction with ARID4A in yeast two-hybrid genetic screens but retained an indirect association with ARID4A in MDA-MB-231 and -435 human breast cancer cell lines by co-immunoprecipitation. Deletion of the first coiled-coil domain (BRMS1 ⌬CC1 ) did not disrupt direct interaction in yeast two-hybrid screens but did prevent association by co-immunoprecipitation. These results suggest altered complex composition with BRMS1 mut . Although basal transcription repression was impaired and the pro-metastatic protein osteopontin was differentially down-regulated by BRMS1 L174D and BRMS1 ⌬CC1 , both down-regulated the epidermal growth factor receptor and suppressed metastasis in MDA-MB-231 and -435 breast cancer xenograft models. We conclude that BRMS1 mut , which modifies the composition of a SIN3⅐histone deacetylase chromatin remodeling complex, leads to altered gene expression profiles. Because metastasis requires the coordinate expression of multiple genes, down-regulation of at least one important gene, such as the epidermal growth factor receptor, had the ability to suppress metastasis. Understanding which interactions are necessary for particular biochemical/ cellular functions may prove important for future strategies targeting metastasis.The ability of a cancer cell to complete all steps of the metastatic cascade requires diverse tumor-host interactions that are dependent on the coordinate expression of specific genes both intrinsically and extrinsically (1-3). The metastasis suppressor BRMS1 3 has been shown to regulate the expression of multiple genes leading to the suppression of metastasis in multiple model systems, including human breast carcinoma (4, 5), melanoma (6), and ovarian carcinoma (7), without preventing orthotopic tumor growth. Specifically, down-regulation of the pro-metastatic genes osteopontin (OPN) and urokinase-type plasminogen activator has been linked to BRMS1 expression (8, 9). Gap junctional intercellular communication is restored by BRMS1 through a change in connexin expression (10). Microarray and proteomic analyses have also been performed showing multiple changes in gene and protein expression when BRMS1 was introduced (11-13). Clinically, loss of BRMS1 protein has been correlated with progesterone receptor expression and inversely correlated with HER2 expression in breast cancer patients (14).BRMS1 has been proposed to regulate transcription of genes by interaction with a large SIN3⅐HDAC chromatin remodeling complex through interaction with the protein AT-rich interactive domain 4A (ARID4A) that suppresses basal transcription in vivo using a Gal...
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