Alterations of the cerebrospinal fluid proteins and subcommissural organ secretion in the arterial hypertension and ventricular dilatation. A study in SHR rats.

The aim of this work was to analyze the proteins in the cerebrospinal fluid (CSF) of spontaneously hypertensive rats, to study their possible role in the relationship between hydrocephalus, arterial hypertension and alterations in the subcommissural organ. Brains from control Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) sacrificed with chloral hydrate were used. Antiserums against some cerebrospinal fluid protein bands and Reissner's fiber (RF) were used for immunohistochemical study of the SCO. Ventricular dilation was observed in the lateral and third ventricle of the SHR. Third ventricle ependyma showed immunoreactive material (IRM) for antibody against 141 kDa protein band anti-B1 and 117 protein band anti-B2 and the SCO of the SHR showed a decrease of the IRM when compared with WKY rats. An alteration in the expression of anti-RF was found to compare the SCO of the WKY and SHR groups. Our results demonstrate that hydrocephalus and hypertension are interconnected in this kind of rat which produce alterations in SCO secretions and some proteins of the CSF.

Postnatal development of the secretory activity of the goat subcommissural organ. A Reissner's fibre and angiotensin II immunohistochemical study.

Subcommissural organ (SCO) secretory activity of the goat (variations of Capra hircus, that live in arid conditions) was examined during the postnatal development, using specific antibodies against the Reissner's fibre (AFRU) and angiotensin II (AAGII). The SCO was strongly stained with the anti-glycoproteins that form the Reissner's fibre and lightly marked with the anti-angiotensin II. The AFRU-immunoreactivity (ir) was found in the ependymal and hypendymal cells and in the ventricular and peripheral secretory routes of the goat SCO. The amount AFRU increases at 6 months and decreases at adult age. In contrast, the anti-angiotensin II-ir was mainly found in the adult age, not being practically observed at one postnatal month. The AAGII-ir was mainly found in ependymal cells in which AFRU-ir was downregulated. In addition, we detected the presence of double immunostained for AFRU and AAGII in ependymocytes of the pre-commissural and subcommissural parts. In conclusion the present results may suggest a functional interrelation between AAGII and the secretory activity of the SCO of this kind of goat.

Effect of the arterial hypertension and captopril treatment on the angiotensin II content in the subfornical organ. A study in SHR rats.

We studied the effects of spontaneous high blood pressure and the captopril treatment on the subfornical organ (SFO) of rats. The brains of control Wistar-Kyoto rats (WKY), WKY rats treated with captopril (WKY-T), spontaneously hypertensive rats (SHR) and SHR rats treated with captopril (SHR-T) were processed immunohistochemically using anti-angiotensin II as primary antibody. Immunorective material (IRM) for angiotensin II was observed in a group of neurons and some cells of the ependymal layer of the SFO in WKY rats. The angiotensin II immunoreactive (AGII-ir) in the SHR rats was decreased, showing positive reaction only in a few neurons, while captopril treatment induced an increase in immunoreactive material in hypertensive rats, but contrarily, the expression of AGII-ir in the WKY-T group was scarce. The variations of the angiotensin II observed in the SFO could be owing to an interaction between the hypertension and its captopril treatment.

Ontogenic development of the human subcommissural organ

The structure of the human subcommissuralorgan during its ontogenic development in 24human embryos and foetuses ranging from 6 to40 weeks of gestation (WG), and three adulthuman brains from 27-, 65- and 70-year old subjectswas investigated using both qualitative andquantitative methods. Concurrently, the appearanceof the subcommissural organ, pineal glandand mesocoelic recess was determined by studyingtheir structure, length and volume. Thehuman SCO appears at the beginning of 8th WG,which confirms previous results; the completematuration of the SCO occurs at the 15th WG andthe following three parts can be distinguished:the precommissural part, located in the rostralzone of the posterior commissure (PC) andextending to the pineal recess; the subcommissuralpart, located under the PC, and the retrocommissuralpart, located in the caudal zone ofthe PC, in the mesocoelic recess and at thebeginning of the Sylvian aqueduct. The reductionin size of the SCO begins after the 17th WGand this decrease in size begins in the precommissural,continues in the subcommissural, andfinishes in the retrocommissural part. The regressionand atrophies of the SCO begin after birth,and the SCO disappears completely after the ageof 30. The mesocoelic recess starts to form at thebeginning of the 10th WG, and is completely formedby the 14th WG and this is where the retrocommissuralpart of the SCO is located. In the 40th WG the regression of the mesocoelic recessbegins and this takes place at the same time asthe regression of the SCO. A parallel developmentbetween the SCO and the pineal wasfound. Thus, we observed the first appearance ofthe pineal recess in the 7-8th WG; during the 10thWG a compact mass of cells appeared in the rostralpart of pineal recess and by the 15th WG thepineal gland (PG) had acquired an almost definitiveaspect

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