NCS-1 protein regulates TRPA1 channel through the PI3K pathway in breast cancer and neuronal cells.

The physical and functional interaction between transient receptor potential channel ankyrin 1 (TRPA1) and neuronal calcium sensor 1 (NCS-1) was assessed. NCS-1 is a calcium (Ca2+) sensor found in many tissues, primarily neurons, and TRPA1 is a Ca2+ channel involved not only in thermal and pain sensation but also in conditions such as cancer and chemotherapy-induced peripheral neuropathy, in which NCS-1 is also a regulatory component.We explored the interactions between these two proteins by employing western blot, qRT-PCR, co-immunoprecipitation, Ca2+ transient monitoring with Fura-2 spectrophotometry, and electrophysiology assays in breast cancer cells (MDA-MB-231) with different levels of NCS-1 expression and neuroblastoma cells (SH-SY5Y).Our findings showed that the expression of TRPA1 was directly correlated with NCS-1 levels at both the protein and mRNA levels. Additionally, we found a physical and functional association between these two proteins. Physically, the NCS-1 and TRPA1 co-immunoprecipitate. Functionally, NCS-1 enhanced TRPA1-dependent Ca2+ influx, current density, open probability, and conductance, where the functional effects depended on PI3K. Conclusion: NCS-1 appears to act not only as a Ca2+ sensor but also modulates TRPA1 protein expression and channel function in a direct fashion through the PI3K pathway. These results contribute to understanding how Ca2+ homeostasis is regulated and provides a mechanism underlying conditions where Ca2+ dynamics are compromised, including breast cancer. With a cellular pathway identified, targeted treatments can be developed for breast cancer and neuropathy, among other related diseases.

Engineering a calcium-dependent conformational change in Calbindin D9k by secondary elements replacement.

EF-hand is a common motif in Ca2+-binding proteins, some of which present a conformational change upon Ca2+-binding, a relevant property for signal transduction. In the present work, we investigated the behavior of Calbindin D9k, a modulator protein with a high affinity for Ca2+ but structurally insensitive to its presence. Its non-canoncal N-terminal EF-hand was replaced by chimeric motifs, containing increasing structural elements from the sensor troponin C SCIII motif. We demonstrated that the loop and helix II were the necessary elements for a conformational change promoted by calcium in chimeric Calbindin D9k. Fusion of the isolated chimeric motifs to an activity reporter gene showed the loop as the minimal element to promote a conformational change. The discrepancy between these results is discussed in the light of inter-motif interactions and helix I participation in modulating the Ca2+ affinity and restricting motif conformation.

Calcium Binding Protein Ncs1 Is Calcineurin Regulated in Cryptococcus neoformans and Essential for Cell Division and Virulence.

Intracellular calcium (Ca2+) is crucial for signal transduction in Cryptococcus neoformans, the major cause of fatal fungal meningitis. The calcineurin pathway is the only Ca2+-requiring signaling cascade implicated in cryptococcal stress adaptation and virulence, with Ca2+ binding mediated by the EF-hand domains of the Ca2+ sensor protein calmodulin. In this study, we identified the cryptococcal ortholog of neuronal calcium sensor 1 (Ncs1) as a member of the EF-hand superfamily. We demonstrated that Ncs1 has a role in Ca2+ homeostasis under stress and nonstress conditions, as the ncs1Δ mutant is sensitive to a high Ca2+ concentration and has an elevated basal Ca2+ level. Furthermore, NCS1 expression is induced by Ca2+, with the Ncs1 protein adopting a punctate subcellular distribution. We also demonstrate that, in contrast to the case with Saccharomyces cerevisiae, NCS1 expression in C. neoformans is regulated by the calcineurin pathway via the transcription factor Crz1, as NCS1 expression is reduced by FK506 treatment and CRZ1 deletion. Moreover, the ncs1Δ mutant shares a high temperature and high Ca2+ sensitivity phenotype with the calcineurin and calmodulin mutants (cna1Δ and cam1Δ), and the NCS1 promoter contains two calcineurin/Crz1-dependent response elements (CDRE1). Ncs1 deficiency coincided with reduced growth, characterized by delayed bud emergence and aberrant cell division, and hypovirulence in a mouse infection model. In summary, our data show that Ncs1 has a significant role as a Ca2+ sensor in C. neoformans, working with calcineurin to regulate Ca2+ homeostasis and, consequently, promote fungal growth and virulence.IMPORTANCECryptococcus neoformans is the major cause of fungal meningitis in HIV-infected patients. Several studies have highlighted the important contributions of Ca2+ signaling and homeostasis to the virulence of C. neoformans Here, we identify the cryptococcal ortholog of neuronal calcium sensor 1 (Ncs1) and demonstrate its role in Ca2+ homeostasis, bud emergence, cell cycle progression, and virulence. We also show that Ncs1 function is regulated by the calcineurin/Crz1 signaling cascade. Our work provides evidence of a link between Ca2+ homeostasis and cell cycle progression in C. neoformans.

The Plasmodium falciparum eIK1 kinase (PfeIK1) is central for melatonin synchronization in the human malaria parasite. Melatotosil blocks melatonin action on parasite cell cycle.

Melatonin and its indoles derivatives are central in the synchronization of malaria parasites. In this research, we discovered that melatonin is unable to increase the parasitemia in the human malaria Plasmodium falciparum that lacks the kinase PfeIK1. The PfeIK1 knockout strain is a valuable tool in the screening of indol-related compound that blocks the melatonin effect in wild-type (WT) parasite development. The assays were performed by using flow cytometry with simultaneous labeling for mitochondria viability with MitoTracker Deep Red and nucleus staining with SYBR Green. We found that Melatotosil leads to an increase in parasitemia in P. falciparum and blocks melatonin effect in the WT parasite. Using microscopy imaging system, we found that Melatotosil at 500 nM is able to induce cytosolic calcium rise in transgenic PfGCaMP3 parasites. On the contrary, the compound Triptiofen blocks P. falciparum cell cycle with IC50 9.76 µM ± 0.6, inhibits melatonin action, and does not lead to a cytosolic calcium rise in PfGCaMP3 parasites. We also found that the synthetic indol-related compounds arrested parasite cycle for PfeIK1 knockout and (WT) P. falciparum (3D7) in 72 hours culture assays with the IC50 values slighting lower for the WT strain. We concluded that the kinase PfeIK1 is central for melatonin downstream signaling pathways involved in parasite cell cycle progression. More importantly, the indol-related compounds block its cycle as an upstream essential mechanism for parasite survival. Our data clearly show that this class of compounds emerge as an alternative for the problem of resistance with the classical antimalarials.

Un caso de hipercalcemia hipocalciúrica de causa genética en niño prepúber / Genetic hypercalcemic hypocalciuria in a prepubertal boy

Un paciente de 12 años consultó por vómitos recurrentes asociados con cefaleas, con varios episodios durante 7 meses, y retraso ponderal secundario a esa sintomatología. Había recibido previamente un tratamiento con antibióticos e inhibidores de la bomba de protones, por diagnóstico de gastritis a Helicobacter pylori, después de biopsia gástrica realizada durante una videoendoscopía digestiva alta. Se desconoce su historia familiar porque es hijo adoptivo. Al examen físico el paciente estaba adelgazado, sin tumoración a nivel de cuello; presentaba genitales prepuberales. Como el paciente continuó con vómitos cíclicos recurrentes, siguieron exámenes complementarios donde se constató en 2 oportunidades hipercalcemia (13,2-13,6 mg/dl), acompañada de hipofosfatemia (2,7 mg/dl). Con un diagnóstico presuntivo de hiperparatiroidismo primario se realizaron dosajes de laboratorio: calcemia total e iónica elevada (12,1 y 5,6mg/dl respectivamente), fosfatemia baja (2,8 mg/dl), fosfatasa alcalina sérica normal (151 mU/ml), PTH sérica normal (47,1 pg/ml), 25(OH)vitamina D sérica adecuada (22 ng/ml). La ecografía de glándulas tiroides y paratiroides mostró una imagen redondeada hipoecoica, avascular, de 4 mm axial por 4 mm cefalocaudal, por 3 mm ánteroposterior en topografía paratiroidea derecha, planteándose la posibilidad de hipertrofia paratiroidea versus adenopatía. Se realizó estudio de paratiroides por imágenes: centellograma con 99mTc-MIBI y PET-CT con 18F-colina, pero no se constató captación anormal. Se realizaron nuevos estudios de laboratorio: en orina de 24 horas el calcio era de 19 mg, el cociente calcio/creatinina urinaria 0,03 mg/mg, la reabsorción tubular de fósforo normal (82%) y el cociente de las tasas de depuración de calcio y creatinina muy bajo (0,00046). El CTX sérico era bajo. El diagnóstico clínico fue de hipercalcemia hipocalciúrica; ante la falta de antecedentes familiares, se realizó un estudio de posibles mutaciones puntuales en el gen del receptor de calcio (CaSR), hallándose la presencia en heterocigosis de la mutación p.Arg185Gln (p.R185Q) en la posición 554 (c.554G>A) del exón 4 del gene CaSR. Esto implica el cambio de una arginina por glutamina en el codón 185 de la proteína, y confirma el origen genético de la hipercalcemia hipocalciúrica en nuestro paciente. La edad ósea era de 12 años, y se indicó un tratamiento con testosterona i.m. a bajas dosis para acelerar el desarrollo puberal; luego de 4 aplicaciones mensuales su talla se ha incrementado en 4 cm y su peso en 3 kg. Una aplicación subcutánea de denosumab (60 mg) no controló la hipercalcemia. Continuó por un año con hipoorexia y un episodio de vómitos por semana, pero actualmente tiene buen apetito y excelente tolerancia digestiva. Se le ha prescripto cinacalcet oral (AU)

A 12-year-old patient who consulted for recurrent vomiting associated with headaches, with several episodes for 7 months, and low body weight. The patient had previously received treatment with antibiotics and proton pump inhibitors, due to gastritis with Helicobacter pylori, after gastric biopsy performed during videoendoscopy. His family history is unknown because he is an adopted son. At physical examination the patient was thin, without neck tumor; he had prepubertal genitalia. As he patient continued with recurrent vomiting, he was admitted for further evaluation. Laboratory studies revealed hypercalcemia (13.2-13.6 mg/dl), accompanied by hypophosphatemia (2.7 mg/dl). With a presumptive diagnosis of primary hyperparathyroidism, complementary determinations were performed: total and high total and ionized serum calcium (12.1 and 5.6 mg/dl, respectively), normal serum alkaline phosphatase (151 mU/ml), and PTH (47.1 pg/ml), and normal serum 25(OH) vitamin D (32 ng/ml). The ultrasonography of thyroid and parathyroid glands showed a rounded hypoechoic, avascular image, 4 mm in diameter in the lower right parathyroid topography. A parathyroid imaging studies were performed: scintigraphy with 99mTc-MIBI and PET-CT with 18F-choline, but no abnormal uptake was observed. New laboratory studies were carried out: in 24-hour urine the calcium was 19 mg, the urinary calcium/creatinine ratio was 0.03 mg/mg, the tubular reabsorption of phosphorus was normal (82%) and the ratio of clearances rates of calcium and creatinine very low (0.00046). Serum CTX was low. The clinical diagnosis was hypocalciuric hypercalcemia; in the absence of a family history, a study of possible point mutations in the calcium receptor gene (CaSR) was carried out; there was a heterozygous mutation: p.Arg185Gln (p.R185Q) at position 554 (c.554G)>A) of exon 4 of the CaSR gene. This involves the exchange of an arginine for glutamine at codon 185 of the protein, and confirms the genetic origin of the hypocalciuric hypercalcemia in our patient. Bone age was 12 years, and a treatment with testosterone i.m. at low doses to accelerate pubertal development was started; after 4 monthly applications height has increased by 4 cm and weight by 3 kg. Loss of appetite and a weekly episode of postprandial vomiting continued during one yeas, but now his appetite is normal and vomiting has subsided. A subcutaneous application of denosumab (60 mg) did not control hypercalcemia. He has been prescribed oral cinacalcet (AU)

Pedunculopontine Nucleus Gamma Band Activity-Preconscious Awareness, Waking, and REM Sleep.

The pedunculopontine nucleus (PPN) is a major component of the reticular activating system (RAS) that regulates waking and REM sleep, states of high-frequency EEG activity. Recently, we described the presence of high threshold, voltage-dependent N- and P/Q-type calcium channels in RAS nuclei that subserve gamma band oscillations in the mesopontine PPN, intralaminar parafascicular nucleus (Pf), and pontine subcoeruleus nucleus dorsalis (SubCD). Cortical gamma band activity participates in sensory perception, problem solving, and memory. Rather than participating in the temporal binding of sensory events as in the cortex, gamma band activity in the RAS may participate in the processes of preconscious awareness, and provide the essential stream of information for the formulation of many of our actions. That is, the RAS may play an early permissive role in volition. Our latest results suggest that (1) the manifestation of gamma band activity during waking may employ a separate intracellular pathway compared to that during REM sleep, (2) neuronal calcium sensor (NCS-1) protein, which is over expressed in schizophrenia and bipolar disorder, modulates gamma band oscillations in the PPN in a concentration-dependent manner, (3) leptin, which undergoes resistance in obesity resulting in sleep dysregulation, decreases sodium currents in PPN neurons, accounting for its normal attenuation of waking, and (4) following our discovery of electrical coupling in the RAS, we hypothesize that there are cell clusters within the PPN that may act in concert. These results provide novel information on the mechanisms controlling high-frequency activity related to waking and REM sleep by elements of the RAS.