The influence of age on endothelial functional markers was investigated in rats. Angiotensin I converting enzyme (ACE) activity and nitric oxide synthase (NOS) mRNA expressions were examined in the lung and aorta of 10-, 20-, and 30-mo-old normotensive rats. These data were extended by the measurement of circulating endothelial cells. ACE activity was significantly decreased in plasma ( P < 0.01) and lungs ( P < 0.01) at 30 mo, whereas it was significantly increased in the aorta ( P < 0.001) at this age. Conversely, ACE mRNA levels decreased with age in the lung ( P < 0.05). The level of constitutive endothelial NOS (eNOS) mRNA was significantly reduced in the aorta of 30-mo-old rats ( P < 0.05), but no changes were observed in the lungs. The level of inducible NOS (iNOS) mRNA in the aorta was significantly decreased in 20- and 30-mo-old rats ( P < 0.01), whereas it was significantly increased in the lung at 30 mo ( P < 0.01). Interestingly, eNOS was expressed ∼30 times more ( P < 0.001) in the aorta than iNOS, whereas in the lung it was only slightly higher than iNOS (35%; P < 0.001). Neuronal NOS mRNA expression was not modified with aging. In the aorta, guanosine 3′,5′-cyclic monophosphate concentration followed NOS expressions and showed a significant decrease at 30 mo ( P < 0.001). An increase in the number of circulating endothelial cells was observed in the oldest rats, possibly reflecting an increase in endothelial cell turnover with aging. The present results demonstrate that aging modifies the expression of endothelial markers implicated in the regulation of vasomotor tone. This age-dependent impairment of endothelial functions could contribute to the increased risk of pathological processes within the arterial wall associated with aging.
Angiotensin I-converting enzyme (ACE) is known to be present at the surface of endothelial cells and also in the adventitia in large vessels. The presence of ACE in the vascular smooth muscle remains controversial. We microdissected segments of adventitia and media with or without endothelium from a region devoid of collateral arteries. The membrane-bound ACE activity in the media averaged 41% (pmol [glycine-1-14C]hippuryl-L-histidyl-L-leucine hydrolyzed.g tissue-1.min-1) of the values found in the whole aorta, whereas the adventitia contained only 6%. Immunoreactive ACE in media was characterized by Western blotting. ACE mRNAs were detected and characterized after polymerase chain amplification in isolated media. Angiotensin I and angiotensin II were equally able to contract medial rings, and the response to angiotensin I was blocked by enalaprilat. In aortas of two-kidney, one-clip hypertensive rats, there was an increase in ACE mRNA estimated by ribonuclease protection assay (P = 0.02) and in ACE activity at 15 days and 1 and 3 mo after clipping. This corresponded to a 1.5- to 2-fold increase in the ACE activity of both the media and the adventitia compared with sham-operated rats (P < or = 0.02). Thus ACE gene expression occurs in smooth muscle of rat aorta, which contains roughly the same amount of enzyme as the endothelium and readily converts angiotensin I to angiotensin II. ACE in the medial layer and the adventitia is upregulated in renovascular hypertension.
The pathogenesis of campylobacter enteritis is not well understood, but invasion into and translocation across intestinal epithelial cells may be involved in the disease process, as demonstrated for a number of other enteric pathogens. However, the mechanisms involved in these processes are not clearly defined for campylobacters. In this study, isolates were compared quantitatively in established assays with the enterocyte-like cell line, Caco-2, to determine the extent to which intracellular invasion contributes to translocation across epithelial cell monolayers, and whether isolates vary in this respect. Ten fresh Campylobacter isolates were compared and shown to differ in invasiveness by a factor of 10-fold by following their recovery from gentamicin-treated Caco-2 cells grown on nonpermeable tissue-culture wells. Four of these isolates with contrasting invasive ability were also shown to vary in their ability to translocate across Caco-2 cells grown on semipermeable Transwell inserts by a factor > 10. However, translocation did not quantitatively correlate with the intracellular invasiveness of these isolates. Isolate no. 9752 was poorly invasive but had modest translocation ability, isolate no. 10392 was very invasive but did not translocate significantly and remained within the monolayer, isolate no. 9519 both translocated and invaded well, whereas, isolate no. 235 translocated very efficiently but was poorly invasive. Isolate no. 9519 also uniquely caused a transitory flattening of the Caco-2 cells and a possible drop in trans-epithelial electrical resistance (TEER) of the Transwell monolayers, whereas isolate no. 235 did not show these effects. Together these data demonstrate that there are significantly different 'invasion' phenotypes among Campylobacter strains involving different degrees of intracellular invasion, and either different rates of transcellular trafficking or, alternatively, paracellular trafficking.
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