Effects of calcium,magnesium, potassium and boron on sperm cells isolated from pollen of Zea mays L.

Our previous studies showed that Brewbaker and Kwack salts, which have been widely used in pollen germination and sperm isolation, are not appropriate for the maintenance of isolated maize (Zea mays L.) sperm cells. In the present study, we have characterized the effects of each BKS component salt on the integrity of isolated sperm cells using hemacytometry. At 0.01 and 0.1 mM, there were no differences in cell number between control and any salt-treated cells except a 22% decrease with 0.1 mM MgSO₄ at 48 h. At the 1 mM level, cell number decreased with time in the presence of Ca(NO₃)₂ and MgSO₄, with loss of integrity of most cells at 48 h, while KNO₃ and H₃BO₃ had little or no effect. Further characterization of calcium-induced reduction in cell integrity using flow cytometry showed that depletion of possible residual free calcium by addition of EGTA to the suspension medium improved cell longevity and viability. Exposure of isolated sperm cells to 1 mM calcium had no effect on cell integrity and viability in 5 h; however, only 12% of cells remained intact at 24 h. The reduction in cell integrity was hastened when cells were pretreated with the calcium ionophore A23187 prior to exposure to 1 mM calcium, with a 54% reduction in cell number at 1 h and complete cell lysis at 24 h. However, depletion of cytosolic free calcium by pretreatment of cells with the calcium ionophore followed by resuspension in the presence of EGTA resulted in rapid reduction of cell integrity as well. These results collectively suggest that maize sperm cells are sensitive to exogenous free calcium; however, a certain level of cytosolic free calcium is necessary for maintenance of integrity. Mechanisms of calcium-induced reduction in cell integrity are discussed along with possible roles of the sensitivity of sperm cells to calcium in fertilization.     

Ca2+/Calmodulin-dependent Protein Kinase IIα (αCaMKII) Controls the Activity of the Dopamine Transporter: IMPLICATIONS FOR ANGELMAN SYNDROME

The dopamine transporter (DAT) is a crucial regulator of dopaminergic neurotransmission, controlling the length and brevity of dopaminergic signaling. DAT is also the primary target of psychostimulant drugs such as cocaine and amphetamines. Conversely, methylphenidate and amphetamine are both used clinically in the treatment of attention-deficit hyperactivity disorder and narcolepsy. The action of amphetamines, which induce transport reversal, relies primarily on the ionic composition of the intra- and extracellular milieus. Recent findings suggest that DAT interacting proteins may also play a significant role in the modulation of reverse dopamine transport. The pharmacological inhibition of the serine/threonine kinase αCaMKII attenuates amphetamine-triggered DAT-mediated 1-methyl-4-phenylpyridinium (MPP(+)) efflux. More importantly, αCaMKII has also been shown to bind DAT in vitro and is therefore believed to be an important player within the DAT interactome. Herein, we show that αCaMKII co-immunoprecipitates with DAT in mouse striatal synaptosomes. Mice, which lack αCaMKII or which express a permanently self-inhibited αCaMKII (αCaMKII(T305D)), exhibit significantly reduced amphetamine-triggered DAT-mediated MPP(+) efflux. Additionally, we investigated mice that mimic a neurogenetic disease known as Angelman syndrome. These mice possess reduced αCaMKII activity. Angelman syndrome mice demonstrated an impaired DAT efflux function, which was comparable with that of the αCaMKII mutant mice, indicating that DAT-mediated dopaminergic signaling is affected in Angelman syndrome.     

益肾活血汤联合百令胶囊对慢性肾功能衰竭患者肾功能、钙磷代谢和T淋巴细胞亚群的影响

摘要 目的：探讨益肾活血汤联合百令胶囊对慢性肾功能衰竭患者肾功能、钙磷代谢和T淋巴细胞亚群的影响。方法：选取2020年5月~2022年3月期间上海中医药大学附属曙光医院收治的102例慢性肾功能衰竭患者,按随机数字表法分为对照组（常规西医治疗）和观察组（常规西医治疗联合益肾活血汤和百令胶囊治疗）,各51例。两组均治疗8周。对比两组疗效及治疗前、治疗8周后中医证候积分、肾功能、钙磷代谢和T淋巴细胞亚群的变化。结果：观察组治疗8周后的临床总有效率为92.16%（47/51）,高于对照组的74.51%（38/51）（P<0.05）。治疗8周后,两组中医主证积分、次证积分均较治疗前下降,且相比于对照组,观察组更低（P<0.05）。治疗8周后,血肌酐、尿素氮、24 h尿蛋白在两组中均较治疗前下降,且观察组低于对照组（P<0.05）。治疗8周后,两组CD8⁺较治疗前下降,且观察组低于对照组（P<0.05）,而CD4⁺、CD3⁺、CD4⁺/CD8⁺均较治疗前升高,且观察组高于对照组（P<0.05）。治疗8周后,两组血磷、钙磷乘积下降,且观察组低于对照组（P<0.05）,血钙均升高,且观察组高于对照组（P<0.05）。结论：益肾活血汤联合百令胶囊治疗慢性肾功能衰竭患者,可提高肾功能,改善钙磷代谢和T淋巴细胞亚群,并缓解其临床症状,疗效确切,值得临床借鉴应用。     

Circadian Patterns of Myocardial Ischaemia and the Effects of Antianginal Drugs

Chronopathology of cardiovascular disease is now well documented. Silent myocardial ischaemia involves the same pathophysiological changes as conventional ischaemia. Early morning peaks in angina and myocardial ischaemia call for adequate timing of medication. β-blockers abolish the morning peak, and aspirin reduces morning infarctions. The effects of other antianginals on these phenomena are presently unknown.     

Ion antagonism in phytochrome-mediated calcium-dependent germination of turions of Spirodela polyrhiza (L.) Schleiden

The light-dependent germination response of turions (resting fronds) is mediated by phytochrome and requires the presence of Ca²⁺ in the medium (K.-J. Appenroth and H. Augsten, 1990, Photochem. Photobiol. 52: 61–65). The Ca²⁺ requirement of germination is apparent only in the presence of exogenous Mg²⁺. A competitive ion antagonism was demonstrated between Ca²⁺ and Mg²⁺ in this physiological response; Mg²⁺ could also be replaced by Ba²⁺ or Sr²⁺. Without exog-enous Mg²⁺, a Ca²⁺ concentration as low as 0.9 μM fulfilled the Ca²⁺ requirement. This type of ion antagonism resembled the competitive Ca/Mg interaction reported previously for calcium-binding proteins. The physiological response was blocked by inhibitors of Ca²⁺ uptake (verapamil, La³⁺). It was concluded that uptake of Ca²⁺ from the external medium is an essential step in the phytochrome-mediated germination of turions. The results are in agreement with the assumption that the uptake of Ca²⁺ is blocked at the side of entry by other alkaline earth ions. Treatment of turions with Mg²⁺ (1 mM) for 24 h at varying times after the red light pulse in otherwise virtually Ca²⁺-free KNO₃ solution resulted in a response similar to a Ca²⁺ step-down treatment. This is in agreement with the assumption that the Ca²⁺- and the Mg²⁺-sensitive periods coincide. The ion interaction described here represents the first photophysiological example in plants of an antagonistic effect between Ca²⁺ and Mg²⁺ similar to that which occurs in vitro with calmodulin. Received: 12 June 1998 / Accepted: 28 December 1998     

How calcium controls microtubule anisotropic phase formation in the presence of microtubule-associated proteins in vitro

Here we show a new effect of Ca²⁺ on microtubule morphology: Ca²⁺ can cause smooth curving of microtubules in the presence of microtubule-associated proteins (MAPs). In vitro, microtubules self-organize, forming complex dissipative structures. Such structures may be strongly affected by relatively weak external factors. A factor such as Ca²⁺ potentially influences spatiotemporal patterns of microtubule assembly, but the dynamics are unclear. We tested Ca²⁺ effects on microtuble formation. Using EM, microtubule length, curvature, and alignment and were measured in two systems: 2 mg/ml microtubule protein containing MAPs and 1 mM EGTA with and without 1 mM Ca²⁺. The two systems were then tested using light scattering. In low Ca²⁺, a birefringent microtubular pattern is seen, increasing with polymerization. When 1 mM Ca²⁺ is added to the solution. anisotropic phase is prevented without microtubule disruption. This demonstrates an additional mechanism by which Ca²⁺ can alter the dynamics and morphology of microtules.     

Regulation of vascular function by RCAN1 (ADAPT78)

RCAN1 (Adapt78) functions mainly, if not exclusively, as a regulator of calcineurin, a phosphatase that mediates many cellular responses to calcium. Identification of this regulatory activity has led to a surge of interest in RCAN1, since calcineurin is involved in many cellular and tissue functions, and its abnormal expression is associated with multiple pathologies. Recent studies have implicated RCAN1 as a regulator of angiogenesis. To more fully investigate the role of RCAN1 in vascular function, we first extended previous studies by assessing RCAN1 response in cultured endothelial cells to various vascular agonists. Strong induction of isoform 4 but not isoform 1 was observed in human umbilical vein- and bovine pulmonary aortic-endothelial cells in response to VEGF, thrombin, and ATP but not other agonists. Inductions were both calcium and calcineurin dependent, with the relative effect of each agonist cell-type dependent. Ectopic RCAN1 expression also inhibited calcineurin signaling in the HUVEC cells. Based on these strong RCAN1 responses and a lack of RCAN1-associated vascular studies beyond angiogenesis, we investigated the potential role of RCAN1 in vascular tone using whole mounted mesenteric artery. RCAN1 knockout mice exhibited an attenuated mesenteric vasoconstriction to phenylephrine as compared with wild-type. Overall contractility was unaffected, suggesting that this component of smooth muscle action is similar in the two mouse strains. Constriction in the knockout artery appeared to be potentiated by the addition of the nitric oxide synthase (NOS) inhibitor l-NAME, suggesting that elevated nitric oxide (NO) production occurs in the knockout vasculature and contributes to the weakened vasoconstriction. Our results reveal a newly identified vascular role for RCAN1, and a potential new target for treating vascular- and calcineurin-related disorders.     

Characterization of junctate-SERCA2a interaction in murine cardiomyocyte

Junctate is a newly identified sarcoplasmic reticulum (SR) Ca²⁺ binding protein, but its function in cardiac muscle has remained unclear. Our previous study showed that chronic over-expression of junctate in transgenic mice led to altered SR functions and development of severe hypertrophy. In this study, we identified the interaction of junctate with SERCA2a by co-immunoprecipitation and GST-pull-down assay. This interaction was inhibited by higher Ca²⁺ concentration. Immunolocalization assays also showed that junctate and SERCA2a were co-localized in the SR of cardiomyocytes. Direct binding of the C-terminal region of junctate (amino acids 79-270) and luminal domain of SERCA2a (amino acids 70-89) was observed by deletion mutation experiments. Adenovirus-mediated transient over-expression of junctate in cardiomyocytes showed a reduced decay time of Ca²⁺ transients and increased oxalate-supported SERCA2 Ca²⁺ uptake, suggesting an increased activity of SERCA2a. Taken together, according to our data, junctate may play an important role in the regulation of SR Ca²⁺ cycling through the interaction with SERCA2a in the murine heart.     

Stability analysis of an artificial biomolecular oscillator with non-cooperative regulatory interactions

Oscillators are essential to fuel autonomous behaviours in molecular systems. Artificial oscillators built with programmable biological molecules such as DNA and RNA are generally easy to build and tune, and can serve as timers for biological computation and regulation. We describe a new artificial nucleic acid biochemical reaction network, and we demonstrate its capacity to exhibit oscillatory solutions. This network can be built in vitro using nucleic acids and three bacteriophage enzymes, and has the potential to be implemented in cells. Numerical simulations suggest that oscillations occur in a realistic range of reaction rates and concentrations.     

The inositol 1,4,5-trisphosphate (InsP3) receptor

Conclusion In this review, we have described the functional properties and regulation of the InsP₃R. Not all aspects of InsP₃R function and regulation were covered, the main focus was on the most recent and physiologically important data. Information about the structure, heterogeneity, functional properties, and regulation of the InsP₃R is useful for understanding the spatiotemporal aspects of Ca signaling. The combination of biochemical, biophysical and molecular biological techniques has revealed the intricacies of the InsP₃R over the past decade. However, questions about the functional differences between various isoforms and splice variants of the InsP₃R, the structural determinants responsible for regulation of InsP₃R by Ca and ATP, the functional effects of InsP₃R phosphorylation and many others remain to be elucidated. Future investigations can be expected to provide answers to these important questions.We thank S. Bezprozvannaya for expert technical assistance. This work was supported by National Institutes of Health grants HL 33026 and GM 39029, and a Grant-in-Aid from the Patrick and Catherine Weldon Donaghue Medical Research Foundation.