Raquel L. Bernardino scite author profile

The maintenance of pH homeostasis in the male reproductive tract is kept through the involvement of several mechanisms, among which is included the transmembranous movement of H(+) ions. Na(+)-H(+) exchangers (SLC9, solute carrier 9 family members) are among the membrane transporters known to participate in intracellular and extracellular pH regulation but also have important roles in salt and water absorption across epithelia and in the regulation of cell volume. The presence of several Na(+)-H(+) exchangers has been reported in the male reproductive tract. Their involvement in the processes that ensure the correct pursuance of the spermatogenetic event and spermatozoa maturation has been suggested. Indeed, the formation of mature spermatozoa is highly dependent on the maintenance of adequate ductal luminal milieu pH and ionic balance. Perturbations in these processes result in reduced male reproductive potential and consequently male subfertility and/or infertility. Thus, it is imperative to understand H(+) transport dynamics in order to identify and counteract possible alterations associated with reduced male fertility caused by pathological conditions. Herein, we will discuss the expression pattern and physiological roles of SLC9 family members in the cells of the male reproductive tract as well as the molecular basis of H(+) transport and its involvement in male reproductive potential.

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pH and male fertility: making sense on pH homeodynamics throughout the male reproductive tract

Bernardino

Carrageta

Sousa

et al. 2019

Cell. Mol. Life Sci.

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Molecular Basis of Bicarbonate Membrane Transport in the Male Reproductive Tract

Bernardino

Jesus²,

Martins³

et al. 2013

CMC

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Bicarbonate (HCO₃⁻) membrane transport systems are crucial players in the physiology of several tissues. The molecular basis of HCO₃⁻ membrane transport is of major physiological relevance since this ion is involved in the establishment of intracellular and extracellular ionic composition, osmolariy and pH. The membrane HCO₃⁻ transporters are divided in two main families: solute carrier 4 (SLC4) and solute carrier 26 (SLC26), although HCO₃⁻ concentration can also be regulated by the cystic fibrosis transmembrane regulator (CFTR). In most tissues the SLC4 family represents the majority of HCO₃⁻ transporters members, which can be divided in two subgroups: the Na⁺-dependent and the Na⁺-independent transporters. The SLC26 family consists of ten members that can transport diverse ions besides HCO₃⁻. In the male reproductive tract, HCO₃⁻ transport occurs in several processes in order to assure a correct pursuance of the spermatogenetic event and spermatozoa capacitation, being also necessary for egg fertilization. Indeed, the formation of competent spermatozoa, the maintenance of an adequate ductal luminal milieu and spermatozoa capacitation are highly dependent of ionic balance and pH. Perturbations in these processes result in reduced male reproductive health and consequently male subfertility and/or infertility. Thus, it is imperative to understand HCO₃⁻ transport dynamics in order to identify and counteract possible alterations related with reduced male fertility caused by pathological conditions. Herein, we will review the major families and subfamilies of HCO₃⁻ membrane transport, discussing the molecular basis of HCO₃⁻ transport in the male reproductive tract and its role in male-associated subfertility and/or infertility.

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Effect of white tea (Camellia sinensis (L.)) extract in the glycolytic profile of Sertoli cell

et al. 2013

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