Environmental exposures to cadmium (Cd) are a major cause of human toxicity. The kidney is the most sensitive organ; however, the natures of injuries and of adaptive responses have not been adequately investigated, particularly in response to environmental relevant Cd concentrations. In this study, rats received a daily ip injection of low CdCl₂ dose (0.3 mg Cd/kg body mass) and killed at 1, 3, and 5 days of intoxication. Functional, ultrastructural, and biochemical observations were used to evaluate Cd effects. We show that Cd at such subtoxic doses does not affect the tubular functions nor does it induce apoptosis. Meanwhile, Cd accumulates within lysosomes of proximal convoluted tubule (PCT) cells where it triggers cell proliferation and autophagy. By developing an immunohistochemical assay, a punctate staining of light chain 3-II is prominent in Cd-intoxicated kidneys, as compared with control. We provide the evidence of a direct upregulation of autophagy by Cd using a PCT cell line. Compared with the other heavy metals, Cd is the most powerful inducer of endoplasmic reticulum stress and autophagy in PCT cells, in relation to the hypersensitivity of PCT cells. Altogether, these findings suggest that kidney cortex adapts to subtoxic Cd dose by activating autophagy, a housekeeping process that ensures the degradation of damaged proteins. Given that Cd is persistent within cytosol, it might damage proteins continuously and impair at long-term autophagy efficiency. We therefore propose the autophagy pathway as a new sensitive biomarker for renal injury even after exposure to subtoxic Cd doses.
Crude garlic consumption during 1 month reduced testosterone secretion and altered spermatogenesis at 10%, 15% and 30% doses.
Obesity-related glomerulopathy (ORG) is a secondary form of focal segmental glomerulosclerosis (FSGS) occurring in obese patients with a body-mass index higher than 30 kg/m(2). It is typically manifested by nephrotic-range proteinuria without full nephrotic syndrome, and progressive renal insufficiency. Characteristic morphologic features include the consistent presence of glomerulomegaly, predominance of perihilar variant of FSGS, and the relatively mild fusion of visceral epithelial cell foot processes. The concept of podocyte depletion as a driver of the glomerular scarring in obesity-associated FSGS is well documented. The underlying mechanisms are likely to be related in part to the oxidative stress and the impairment of the integrity of the slit diaphragm and cell adhesion resulting mainly from angiotensin II and transforming growth factor-β. These proapoptotic cytokines are upregulated in obesity in response to insulin resistance, compensatory hyperinsulinemia and glomerular hyperfiltration-hypertension mediated mechanical stress. This review is designed to discuss the clinicopathologic features of obesity-associated FSGS, with a focus on the podocyte injury, which is involved in the onset and progression of the glomerulosclerotic process. Ultrastructural glomerular lesions are documented.
Astroglial cells are important actors in the defense of brain against oxidative stress injuries. Glial cells synthesize and release the octadecaneuropeptide ODN, a diazepam-binding inhibitor (DBI)-related peptide, which acts through its metabotropic receptor to protect neurons and astrocytes from oxidative stress-induced apoptosis. The purpose of the present study is to examine the contribution of the endogenous ODN in the protection of astrocytes and neurons from moderate oxidative stress. The administration of HO (50 μM, 6 h) induced a moderate oxidative stress in cultured astrocytes, i.e., an increase in reactive oxygen species, malondialdehyde, and carbonyl group levels, but it had no effect on astrocyte death. Mass spectrometry and QPCR analysis revealed that 50 μM HO increased ODN release and DBI mRNA levels. The inhibition of ODN release or pharmacological blockage of the effects of ODN revealed that in these conditions, 50 μM HO induced the death of astrocytes. The transfection of astrocytes with DBI siRNA increased the vulnerability of cells to moderate stress. Finally, the addition of 1 nM ODN to culture media reversed cell death observed in DBI-deficient astrocytes. The treatment of neurons with media from 50 μM HO-stressed astrocytes significantly reduced the neuronal death induced by HO; this effect is greatly attenuated by the administration of an ODN metabotropic receptor antagonist. Overall, these results indicate that astrocytes produce authentic ODN, notably in a moderate oxidative stress situation, and this glio- and neuro-protective agent may form part of the brain defense mechanisms against oxidative stress injury.
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