Expression and localization of Inter-alpha Inhibitors in rodent brain.

Inter-alpha Inhibitor Proteins (IAIPs) are a family of related serine protease inhibitors. IAIPs are important components of the systemic innate immune system. We have identified endogenous IAIPs in the central nervous system (CNS) of sheep during development and shown that treatment with IAIPs reduces neuronal cell death and improves behavioral outcomes in neonatal rats after hypoxic-ischemic brain injury. The presence of IAIPs in CNS along with their exogenous neuroprotective properties suggests that endogenous IAIPs could be part of the innate immune system in CNS. The purpose of this study was to characterize expression and localization of IAIPs in CNS. We examined cellular expressions of IAIPs in vitro in cultured cortical mouse neurons, in cultured rat neurons, microglia, and astrocytes, and in vivo on brain sections by immunohistochemistry from embryonic (E) day 18 mice and postnatal (P) day 10 rats. Cultured cortical mouse neurons expressed the light chain gene Ambp and heavy chain genes Itih-1, 2, 3, 4, and 5 mRNA transcripts and IAIP proteins. IAIP proteins were detected by immunohistochemistry in cultured cells as well as brain sections from E18 mice and P10 rats. Immunoreactivity was found in neurons, microglia, astrocytes and oligodendroglia in multiple brain regions including cortex and hippocampus, as well as within both the ependyma and choroid plexus. Our findings suggest that IAIPs are endogenous proteins expressed in a wide variety of cell types and regions both in vitro and in vivo in rodent CNS. We speculate that endogenous IAIPs may represent endogenous neuroprotective immunomodulatory proteins within the CNS.

Mechanical stretch promotes alveolar epithelial type II cell differentiation.

Functional maturation of pulmonary alveolar epithelial cells is crucial for extrauterine survival. Mechanical distension and mesenchymal-epithelial interactions play important roles in this process. We hypothesized that mechanical stretch simulating fetal breathing movements is an important regulator of pulmonary epithelial cell differentiation. Using a Flexercell Strain Unit, we analyzed effects of stretch on primary cultures of type II cells and cocultures of epithelial and mesenchymal cells isolated from fetal rat lungs during late development. Cyclic stretch of isolated type II cells increased surfactant protein (SP) C mRNA expression by 150 +/- 30% over controls (P < 0.02) on gestational day 18 and by 130 +/- 30% on day 19 (P < 0.03). Stretch of cocultures with fibroblasts increased SP-C expression on days 18 and 19 by 170 +/- 40 and 270 +/- 40%, respectively, compared with unstretched cocultures. On day 19, stretch of isolated type II cells increased SP-B mRNA expression by 50% (P < 0.003). Unlike SP-C, addition of fibroblasts did not produce significant additional effects on SP-B mRNA levels. Under these conditions, we observed only modest increases in cellular immunoreactive SP-B, but secreted saturated phosphatidylcholine rose by 40% (P < 0.002). These results indicate that cyclic stretch promotes developmentally timed differentiation of fetal type II cells, as a direct effect on epithelial cell function and via mesenchymal-epithelial interactions. Expression of the SP-C gene appears to be highly responsive to mechanical stimulation.

Paracrine mediators of mechanotransduction in lung development.

The process of normal fetal lung development is dependent on "mild" tissue distension (approximately 3 mm Hg) by fluid, resulting in the production of pulmonary surfactant which is necessary for survival at the time of birth. The mechanical "stretching" of lung tissue triggers a cellular differentiation cycle, in part by stimulating the expression and production of cell phenotype-specific soluble cytokines. Pulmonary cytokines regulate differentiation and metabolic function of neighboring cells. For example, tonic stretching of type II alveolar epithelial cells in monolayer culture stimulates the expression and production of the differentiation factor parathyroid hormone-related peptide (PTHrP), which is released by type II cells and specifically binds to its receptor on contiguous fibroblasts, stimulating the "second messenger" cyclic AMP. Tonic distension of cultured type II cells increases PTHrP production, and distension of fibroblasts in monolayer culture increases their PTHrP responsiveness, suggesting that stretching couples and coordinates the production and receptor-mediated action of PTHrP. These data provide a mechanistic basis for the previously observed hand-in-glove spatial pattern of PTHrP and the PTHrP receptor (PTHrPR) in developing terminal airways. PTHrP stimulates specific differentiated functions of fetal lung fibroblasts by: 1) augmenting glucocorticoid binding; 2) increasing metabolic activities directly related to surfactant synthesis, such as lipoprotein lipase elaboration and triglyceride uptake rate; 3) stimulating cytokines, such as interleukins 6 and 11, that can act in a retrograde fashion on epithelial cells; 4) thereby increasing the synthesis of surfactant phospholipids and surfactant-associated proteins, closing this stretch-mediated cell-cell interactive loop. Experimental interruption of this mechanism at any of these steps blocks the spontaneous maturation of the lung in vitro, as evidenced by the inhibition of surfactant production.

Effects of mechanical forces on lung-specific gene expression.

Fetal breathing movements (FBM) are necessary for fetal lung growth and maturation. The authors analyzed fetal rat lungs cultured with or without lung distension and tracheal ligation, and examined the effects of mechanical stretch on a human pulmonary epithelial cell line (NCI-H441) that shows regulated expression of surfactant proteins (SP-A, SP-B). Cells were grown on silastic membranes and mounted in a Flexercell Strain Unit. Cyclic deformation simulating FBM was achieved by applying a vacuum of 22 kPa (5%-15% radial deformation) at 50 cycles per minute for 2 to 24 hours. Results indicate that static distension for as little as 4 hours decreased steady-state SP-A and SP-B mRNA levels in whole lung (n = 5-6, P < .01). In contrast, cyclic stretching of H441 cells for 24 hours increased SP-B and SP-A expression 2- to 4-fold over controls. Cyclic deformation also significantly enhanced 3H-choline incorporation into saturated phosphatidylcholine. Dynamic mechanodeformation may be a critical stimulus for fetal lung development.

[How we health workers see the foreseeable future of our work in health centers]. / Cómo vemos los sanitarios el previsible futuro de nuestro trabajo en los centros de salud.

OBJECTIVE: To find the view of health professionals on how their work in health centres will evolve in the immediate future. DESIGN: A qualitative study of discussion groups. SETTING: Primary care. PARTICIPANTS: 28 primary care professionals, distributed in four independent groups, of seven doctors, seven paediatricians, seven nurses and seen coordinators. MEASUREMENTS AND MAIN RESULTS: The data analysis studied the most commonly used words, concepts and sentences in an attempt to identify the basic ideas. We had to distinguish the assessments made of primary/specialist coordination, the doctor-patient relationship and ongoing training. We noted the high motivation of all those taking part except the nursing group which was frankly disillusioned. CONCLUSIONS: The primary/specialist relationship has to improve. Consideration given to communication with the patient/user and the family should increase, and bureaucracy decrease. Ongoing training must be an essential axis of development, enabling staff to adapt to new changes. Health staff sees increases in the future in preventive activities.

[Clinical and biochemical heterogeneity of childhood cytochrome C deficiency. Review of the literature]. / Heterogeneidad clínica y bioquímica del déficit de citocromo C en la infancia. Revisión de la literatura.

The detailed clinical history of a patient with a partial cytochrome c oxidase (COX) deficiency, which was demonstrated both in muscle and liver tissues, is presented. The review of the 27 pediatric cases published shows the multisystemic involvement of this enzyme deficiency and its vast clinical heterogeneity. In addition to the classical findings (myopathy, Debré-DeToni-Fanconi syndrome and lactic acidosis), our patient presented: Neurosensorial hearing loss, feeding problems, failure to thrive and hypertrophic myocardiopathy. Clinical or neuroradiological findings suggestive of Leigh's syndrome were not found despite her partial COX deficiency, neurosensorial hearing loss has been observed in four other patients with COX deficiency. Therefore, this enzyme deficiency should be considered in the differential diagnosis of neurosensorial deafness in infancy.