Sex-dependent expression of Oat3 (Slc22a8) and Oat1 (Slc22a6) proteins in murine kidneys

In the mouse kidney, organic anion transporter 3 (mOat3, Slc22a8) was previously localized to the basolateral membrane (BLM) of proximal tubule (PT), thick ascending limb of Henle, macula densa, distal tubule, and cortical collecting duct. However, the specificity of anti-Oat3 antibodies (Oat3-Ab) used in these studies was not properly verified. Moreover, the sex-dependent expression of mOat3, and of the functionally similar transporter mOat1 (Slc22a6), in the mouse kidney has been studied at mRNA level, whereas their protein expression is poorly documented. Here we investigated 1) specificity of Oat3-Abs by using Oat3knockout (KO) mice, 2) cell localization of renal mOat3 with a specific mOat3-Ab, 3) sex-dependent expression of renal mOat3 and mOat1 proteins, and 4) hormone(s) responsible for observed sex differences. As previously shown, an Oat3-Ab against the rat protein stained the BLM of various nephron segments in wild-type (WT) mice, but the same staining pattern was noted along the nephron of Oat3 KO mice. However, the mOat3-Ab exclusively stained the BLM of PT in WT mice, where it colocalized with the mOat1 protein, whereas no staining of Oat3 protein was noted in the kidney of Oat3 KO mice. The expression of mOat3 protein was lower in male mice, upregulated by castration, and downregulated by testosterone treatment. The expression of mOat1 protein was stronger in males, downregulated by castration, and upregulated by testosterone treatment. Thus, at the protein level, mOat3 and mOat1 exhibit sex-dependent expression with an opposite pattern; mOat3 is female dominant due to androgen inhibition, while mOat1 is male dominant due to androgen stimulation

Modern management of chronic granulomatous disease

Chronic granulomatous disease (CGD) is a rare primary immunodeficiency disorder of phagocytic cells resulting in failure to kill a characteristic spectrum of bacteria and fungi and in defective degradation of inflammatory mediators with concomitant granuloma formation. Current prophylaxis with trimethoprim-sulfamethoxazole, itraconazole and in selected cases additional interferon gamma is efficient, but imperfect. A significant recent progress towards new antibiotic (e.g. linezolid) and antifungal (e.g. voriconazole and posaconazole) therapy will allow survival of most patients into adulthood. Adolescent and adult CGD is increasingly characterized by inflammatory complications, such as granulomatous lung and inflammatory bowel disease, requiring immunosupressive therapy. Allogeneic haematopoietic stem cell transplantation from a human leucocyte antigen identical donor is currently the only proven curative treatment for CGD and can be offered to the selected patients. Gene-replacement therapy for patients lacking a suitable stem cell donor is still experimental and faces major obstacles and risks. However, it may offer some transitory benefits and has helped in a few cases to overcome life-threatening infections