Less Is More: Neisseria gonorrhoeae RecX Protein Stimulates Recombination by Inhibiting RecA

Escherichia coli RecX (RecX_Ec) is a negative regulator of RecA activities both in the bacterial cell and in vitro. In contrast, the Neisseria gonorrhoeae RecX protein (RecX_Ng) enhances all RecA-related processes in N. gonorrhoeae. Surprisingly, the RecX_Ng protein is not a RecA protein activator in vitro. Instead, RecX_Ng is a much more potent inhibitor of all RecA_Ng and RecA_Ec activities than is the E. coli RecX ortholog. A series of RecX_Ng mutant proteins representing a gradient of functional deficiencies provide a direct correlation between RecA_Ng inhibition in vitro and the enhancement of RecA_Ng function in N. gonorrhoeae. Unlike RecX_Ec, RecX_Ng does not simply cap the growing ends of RecA filaments, but it directly facilitates a more rapid RecA filament disassembly. Thus, in N. gonorrhoeae, recombinational processes are facilitated by RecX_Ng protein-mediated limitations on RecA_Ng filament presence and/or length to achieve maximal function.     

Cryptic Virulence and Avirulence Alleles Revealed by Controlled Sexual Recombination in Pea Aphids

Although aphids are worldwide crop pests, little is known about aphid effector genes underlying virulence and avirulence. Here we show that controlling the genetics of both aphid and host can reveal novel recombinant genotypes with previously undetected allelic variation in both virulence and avirulence functions. Clonal F₁ progeny populations were derived from reciprocal crosses and self-matings between two parental genotypes of pea aphid (Acyrthosiphon pisum) differing in virulence on a Medicago truncatula host carrying the RAP1 and RAP2 resistance genes. These populations showed Mendelian segregation consistent with aphid performance being controlled largely by a dominant virulence allele derived from only one parent. Altered segregation ratios on near-isogenic host genotypes differing in the region carrying RAP1 were indicative of additional heritable functions likely related to avirulence genes originating from both parents. Unexpectedly, some virulent F₁ progeny were recovered from selfing of an avirulent parent, suggesting a reservoir of cryptic alleles. Host chlorosis was associated with virulence, whereas necrotic hypersensitive-like response was not. No maternal inheritance was found for any of these characteristics, ruling out sex-linked, cytoplasmic, and endosymbiotic factors. Our results demonstrate the tractability of dissecting the genetic basis of pest-host resistance mechanisms and indicate that the annual sexual cycle in aphids may lead to frequent novel genotypes with both increased and decreased virulence. Availability of genomes for both pest and host can facilitate definition of cognate gene-for-gene relationships, potentially leading to selection of crop genotypes with multiple resistance traits.     

Simultaneous measurement of plasma vitamin D(3) metabolites, including 4β,25-dihydroxyvitamin D(3), using liquid chromatography-tandem mass spectrometry

Simultaneous and accurate measurement of circulating vitamin D metabolites is critical to studies of the metabolic regulation of vitamin D and its impact on health and disease. To that end, we have developed a specific liquid chromatography–tandem mass spectrometry (LC–MS/MS) method that permits the quantification of major circulating vitamin D₃ metabolites in human plasma. Plasma samples were subjected to a protein precipitation, liquid–liquid extraction, and Diels–Alder derivatization procedure prior to LC–MS/MS analysis. Importantly, in all human plasma samples tested, we identified a significant dihydroxyvitamin D₃ peak that could potentially interfere with the determination of 1α,25-dihydroxyvitamin D₃ [1α,25(OH)₂D₃] concentrations. This interfering metabolite has been identified as 4β,25-dihydroxyvitamin D₃ [4β,25(OH)₂D₃] and was found at concentrations comparable to 1α,25(OH)₂D₃. Quantification of 1α,25(OH)₂D₃ in plasma required complete chromatographic separation of 1α,25(OH)₂D₃ from 4β,25(OH)₂D₃. An assay incorporating this feature was used to simultaneously determine the plasma concentrations of 25OHD₃, 24R,25(OH)₂D₃, 1α,25(OH)₂D₃, and 4β,25(OH)₂D₃ in healthy individuals. The LC–MS/MS method developed and described here could result in considerable improvement in quantifying 1α,25(OH)₂D₃ as well as monitoring the newly identified circulating metabolite, 4β,25(OH)₂D₃.     

A possible calcium binding site in D1 protein: A fluorescence and FTIR study of the interaction between lanthanides and a synthetic peptide

A peptide ranging from residue 229 to 240 of the D₁ protein of Photosystem (PS) II was synthesized and lanthanides were used as candidates of calcium. Fluorescence and FTIR spectroscopy were used to test the conformational adaptation after lanthanide additions. Fluorescence spectroscopy showed that the synthetic peptide provides lanthanide binding site, and that glutamic acids are involved in lanthanide binding. Resolution enhancement techniques were combined with band curve-fitting procedures to quantitate the FTIR spectral information from the amide 1 bands. The relative areas of these component bands indicate that lanthanide induced a substantial decrease in the amount of unordered structure and turns, while a corresponding increase in the amount of -helix and open loop was also observed. This indicates that a relatively compact structure of the synthetic peptide is formed if lanthanides are applied. The results may reflect on the physiological and biochemical function of calcium in PS II, including preventing D₁ from trypsin digestion.Abbreviations DCMU 3-(3,4-Dichlorophenyl)-1,1-dimethylurea - FTIR Fourier transform infrared - FSD Fourier self-deconvolution - PS Photosystem - Q_B Secondary plastoquinone electron acceptor of PS II     

Low-barrier hydrogen bond plays key role in active photosystem II — A new model for photosynthetic water oxidation

The function and mechanism of Tyr_Z in active photosystem II (PSII) is one of the long-standing issues in the study of photosynthetic water oxidation. Based on recent investigations on active PSII and theoretical studies, a new model is proposed, in which D1-His190 acts as a bridge, to form a low-barrier hydrogen bond (LBHB) with Tyr_Z, and a coordination bond to Mn or Ca ion of the Mn-cluster. Accordingly, this new model differs from previous proposals concerning the mechanism of Tyr_Z function in two aspects. First, the LBHB plays a key role to decrease the activation energy for Tyr_Z oxidation and Tyr_Z^· reduction during photosynthetic water oxidation. Upon the oxidation of Tyr_Z, the hydrogen bond between Tyr_Z and His190 changes from a LBHB to a weak hydrogen bond, and vice versa upon Tyr_Z^· reduction. In both stages, the electron transfer and proton transfer are coupled. Second, the positive charge formed after Tyr_Z oxidation may play an important role for water oxidation. It can be delocalized on the Mn-cluster, thus helps to accelerate the proton release from substrate water on Mn-cluster. This model is well reconciled with observations of the S-state dependence of Tyr_Z oxidation and Tyr_Z^· reduction, proton release, isotopic effect and recent EPR experiments. Moreover, the difference between Tyr_Z and Tyr_D in active PSII can also be readily rationalized. The His190 binding to the Mn-cluster predicted in this model is contradictious to the recent structure data, however, it has been aware that the crystal structure of the Mn-cluster and its environment are significantly modified by X-ray due to radiation damage and are different from that in active PSII. It is suggested that the His190 may be protonated during the radiation damage, which leads to the loss of its binding to Mn-cluster and the strong hydrogen bond with Tyr_Z. This type of change arising from radiation damage has been confirmed in other enzyme systems.     

Recombineering Homologous Recombination Constructs in Drosophila

The continued development of techniques for fast, large-scale manipulation of endogenous gene loci will broaden the use of Drosophila melanogaster as a genetic model organism for human-disease related research. Recent years have seen technical advancements like homologous recombination and recombineering. However, generating unequivocal null mutations or tagging endogenous proteins remains a substantial effort for most genes. Here, we describe and demonstrate techniques for using recombineering-based cloning methods to generate vectors that can be used to target and manipulate endogenous loci in vivo. Specifically, we have established a combination of three technologies: (1) BAC transgenesis/recombineering, (2) ends-out homologous recombination and (3) Gateway technology to provide a robust, efficient and flexible method for manipulating endogenous genomic loci. In this protocol, we provide step-by-step details about how to (1) design individual vectors, (2) how to clone large fragments of genomic DNA into the homologous recombination vector using gap repair, and (3) how to replace or tag genes of interest within these vectors using a second round of recombineering. Finally, we will also provide a protocol for how to mobilize these cassettes in vivo to generate a knockout, or a tagged gene via knock-in. These methods can easily be adopted for multiple targets in parallel and provide a means for manipulating the Drosophila genome in a timely and efficient manner.     

Dual functions of autophagy in the response of breast tumor cells to radiation: cytoprotective autophagy with radiation alone and cytotoxic autophagy in radiosensitization by vitamin D 3

In MCF-7 breast tumor cells, ionizing radiation promoted autophagy that was cytoprotective; pharmacological or genetic interference with autophagy induced by radiation resulted in growth suppression and/or cell killing (primarily by apoptosis). The hormonally active form of vitamin D, 1,25D 3, also promoted autophagy in irradiated MCF-7 cells, sensitized the cells to radiation and suppressed the proliferative recovery that occurs after radiation alone. 1,25D 3 enhanced radiosensitivity and promoted autophagy in MCF-7 cells that overexpress Her-2/neu as well as in p53 mutant Hs578t breast tumor cells. In contrast, 1,25D 3 failed to alter radiosensitivity or promote autophagy in the BT474 breast tumor cell line with low-level expression of the vitamin D receptor. Enhancement of MCF-7 cell sensitivity to radiation by 1,25D 3 was not attenuated by a genetic block to autophagy due largely to the promotion of apoptosis via the collateral suppression of protective autophagy. However, MCF-7 cells were protected from the combination of 1,25D 3 with radiation using a concentration of chloroquine that produced minimal sensitization to radiation alone. The current studies are consistent with the premise that while autophagy mediates a cytoprotective function in irradiated breast tumor cells, promotion of autophagy can also confer radiosensitivity by vitamin D (1,25D 3). As both cytoprotective and cytotoxic autophagy can apparently be expressed in the same experimental system in response to radiation, this type of model could be utilized to distinguish biochemical, molecular and/or functional differences in these dual functions of autophagy.     

Stimulation of dopamine D1 receptor improves learning capacity in cooperating cleaner fish

Accurate contextual decision-making strategies are important in social environments. Specific areas in the brain are tasked to process these complex interactions and generate correct follow-up responses. The dorsolateral and dorsomedial parts of the telencephalon in the teleost fish brain are neural substrates modulated by the neurotransmitter dopamine (DA), and are part of an important neural circuitry that drives animal behaviour from the most basic actions such as learning to search for food, to properly choosing partners and managing decisions based on context. The Indo-Pacific cleaner wrasse Labroides dimidiatus is a highly social teleost fish species with a complex network of interactions with its ‘client’ reef fish. We asked if changes in DA signalling would affect individual learning ability by presenting cleaner fish two ecologically different tasks that simulated a natural situation requiring accurate decision-making. We demonstrate that there is an involvement of the DA system and D₁ receptor pathways on cleaners'' natural abilities to learn both tasks. Our results add significantly to the growing literature on the physiological mechanisms that underlie and facilitate the expression of cooperative abilities.     

Substitution of chloride by bromide modifies the low-temperature tyrosine Z oxidation in active photosystem II

Chloride is an essential cofactor for photosynthetic water oxidation. However, its location and functional roles in active photosystem II are still a matter of debate. We have investigated this issue by studying the effects of Cl⁻ replacement by Br⁻ in active PSII. In Br⁻ substituted samples, Cl⁻ is effectively replaced by Br⁻ in the presence of 1.2 M NaBr under room light with protection of anaerobic atmosphere followed by dialysis. The following results have been obtained. i) The oxygen-evolving activities of the Br⁻-PSII samples are significantly lower than that of the Cl⁻-PSII samples; ii) The same S₂ multiline EPR signals are observed in both Br⁻ and Cl⁻-PSII samples; iii) The amplitudes of the visible light induced S₁Tyr_Z^• and S₂Tyr_Z^• EPR signals are significantly decreased after Br⁻ substitution; the S₁Tyr_Z^• EPR signal is up-shifted about 8 G, whereas the S₂Tyr_Z^• signal is down-shifted about 12 G after Br⁻ substitution. These results imply that the redox properties of Tyr_Z and spin interactions between Tyr_Z^• and Mn-cluster could be significantly modified due to Br⁻ substitution. It is suggested that Cl⁻/Br⁻ probably coordinates to the Ca²⁺ ion of the Mn-cluster in active photosystem II.     

Metabolism of 1α,25-dihydroxyvitamin D2 by human CYP24A1

The metabolism of 1α,25-dihydroxyvitamin D₂ (1α,25(OH)₂D₂) by human CYP24A1 was examined using the recombinant enzyme expressed in Escherichia coli cells. HPLC analysis revealed that human CYP24A1 produces at least 10 metabolites, while rat CYP24A1 produces only three metabolites, indicating a remarkable species-based difference in the CYP24A1-dependent metabolism of 1α,25(OH)₂D₂ between humans and rats. LC-MS analysis and periodate treatment of the metabolites strongly suggest that human CYP24A1 converts 1α,25(OH)₂D₂ to 1α,24,25,26(OH)₄D₂, 1α,24,25,28(OH)₄D₂, and 24-oxo-25,26,27-trinor-1α(OH)D₂ via 1α,24,25(OH)₃D₂. These results indicate that human CYP24A1 catalyzes the C₂₄-C₂₅ bond cleavage of 1α,24,25(OH)₂D₂, which is quite effective in the inactivation of the active form of vitamin D₂. The combination of hydroxylation at multiple sites and C-C bond cleavage could form a large number of metabolites. Our findings appear to be useful to predict the metabolism of vitamin D₂ and its analogs in the human body.     

Vanadium and 1, 25 (OH)2 vitamin D3 combination in inhibitions of 1,2, dimethylhydrazine-induced rat colon carcinogenesis

The current investigation demonstrates the antitumor effects of combined supplementations of vanadium (V) (4.27 µmol/L drinking water ad libitum) and1α, 25-dihydroxy vitamin D₃ (Vitamin D₃) (0.3 μg/100 μL propylene glycol per os twice a week) on 1, 2 dimethylhydrazine (DMH) (20 mg/kg body weight) induced rat colon carcinogenesis. There was a significant reduction in incidence (70%), multiplicity (P < 0.0001) and volume (P < 0.01) of colon tumors. HPLC-fluorescence assay detected the combinatorial actions of V and Vitamin D₃ against DMH-induced colonic O⁶-methylguanine DNA adducts formation (at four sequential time points; ANOVA, F = 13.56, P < 0.01). Simultaneous inhibition of DNA single strand breaks (P < 0.001) indicates the potency of the combination regimen in limiting the initiation event of colon carcinogenesis. Immunohistochemical analysis revealed that the effect of V and vitamin D₃ occurred through suppression of cell proliferation (BrdU-LI: P < 0.001) along with an induction of apoptosis (TUNEL-LI: P < 0.01). The immunoexpression of tumor suppressor p53 and downregulation of antiapoptotic protein BCl-2 in subsequent immunofluorescence assay further provide strong evidence for the combinatorial inhibitory actions of vanadium and vitamin D₃ against DMH-induced rat colon carcinogenesis.     

Involvement of 1,25D3-MARRS (membrane associated, rapid response steroid-binding), a novel vitamin D receptor, in growth inhibition of breast cancer cells

In addition to classical roles in calcium homeostasis and bone development, 1,25 dihydroxyvitamin D₃ [1,25(OH)₂D₃] inhibits the growth of several cancer types, including breast cancer. Although cellular effects of 1,25(OH)₂D₃ traditionally have been attributed to activation of a nuclear vitamin D receptor (VDR), a novel receptor for 1,25(OH)₂D₃ called 1,25D₃-MARRS (membrane-associated, rapid response steroid-binding) protein was identified recently. The purpose of this study was to determine if the level of 1,25D₃-MARRS expression modulates 1,25(OH)₂D₃ activity in breast cancer cells.Relative levels of 1,25D₃-MARRS protein in MCF-7, MDA MB 231, and MCF-10A cells were estimated by real-time RT-PCR and Western blotting. To determine if 1,25D₃-MARRS receptor was involved in the growth inhibitory effects of 1,25(OH)₂D₃ in MCF-7 cells, a ribozyme construct designed to knock down 1,25D₃-MARRS mRNA was stably transfected into MCF-7 cells. MCF-7 clones in which 1,25D₃-MARRS receptor expression was reduced showed increased sensitivity to 1,25(OH)₂D₃ ( IC₅₀ 56 ± 24 nM) compared to controls (319 ± 181 nM; P < 0.05). Reduction in 1,25D₃-MARRS receptor lengthened the doubling time in transfectants treated with 1,25(OH)₂D₃. Knockdown of 1,25D₃-MARRS receptor also increased the sensitivity of MCF-7 cells to the vitamin D analogs KH1060 and MC903, but not to unrelated agents (all-trans retinoic acid, paclitaxel, serum/glucose starvation, or the isoflavone, pomiferin). These results suggest that 1,25D₃-MARRS receptor expression interferes with the growth inhibitory activity of 1,25(OH)₂D₃ in breast cancer cells, possibly through the nuclear VDR. Further research should examine the potential for pharmacological or natural agents that modify 1,25D₃-MARRS expression or activity as anticancer agents.     

Cancer-Associated Mutations in BRC Domains of BRCA2 Affect Homologous Recombination Induced by Rad51

The tumor suppressor BRCA2 protein plays a major role in the regulation of Rad51-catalyzed homologous recombination. BRCA2 interacts with monomeric Rad51 primarily via conserved BRC domains and coordinates the formation of Rad51 filaments at double-stranded DNA (dsDNA) breaks. A number of cancer-associated mutations in BRC4 and BRC2 domains have been reported. To elucidate their effects on homologous recombination, we studied Rad51 filament formation on single-stranded DNA and dsDNA substrates and Rad51-catalyzed strand exchange, in the presence of wild-type and mutated peptides of either BRC4 or BRC2. While the wild-type BRC2 and BRC4 peptides inhibited filament formation and, thus, strand exchange, the mutated forms decreased significantly these inhibitory effects. These results are consistent with a three-dimensional model for the interface between individual BRC repeats and Rad51. We suggest that mutations at sites crucial for the association between Rad51 and BRC domains impair the ability of BRCA2 to recruit Rad51 to dsDNA breaks, hampering recombinational repair.     

Co-administration of dopamine D1 and D2 agonists additively decreases daily food intake, body weight and hypothalamic neuropeptide Y level in rats

This study investigated whether co-administration of dopamine D1 and D2 agonists might additively inhibit the feeding effect and whether this effect was mediated by the action on hypothalamic neuropeptide Y (NPY). The D1 agonist SKF 38393 (SKF) and D2 agonists apomorphine (APO) or quinpirole (QNP) were administered, alone or in combination, to examine this possibility. In single administration, decreases of daily food intake were observed only in rats treated twice a day with a higher dose of SKF, APO or QNP. However, combined administration of D1 and D2 agonists, with each agent at a dose that alone did not induce anorexia in one daily treatment, exerted a significant effect. These results reveal that co-activation of D1 and D2 receptors can additively reduce daily food intake and body weight. The same treatment also decreased the level of hypothalamic NPY 24 h post-treatment. These results suggest an additive effect during combined activation of D1 and D2 receptor subtypes to decrease food intake and body weight that are mediated by the action of hypothalamic NPY. Similar to the effects seen in healthy rats, combined D1/D2 administration was also effective in the reduction of food intake in diabetic rats, revealing the efficiency of D1/D2 agonist in the improvement of hyperphasia in diabetic animals.     

Review. Positron emission tomography imaging studies of dopamine receptors in primate models of addiction

Animal models have provided valuable information related to trait and state variables associated with vulnerability to drug addiction. Our brain imaging studies in monkeys have implicated D2 receptors in cocaine addiction. For example, an inverse relationship between D2 receptor availability and rates of cocaine self-administration has been documented. Moreover, environmental variables, such as those associated with formation of the social hierarchy, can impact receptor availability and sensitivity to the abuse-related effects of cocaine. Similarly, both D2 receptor availability and cocaine self-administration can be altered by chronic drug administration and fluctuations in hormone levels. In addition, cocaine self-administration can be altered in an orderly fashion by presentation of an acute stressor, such as acting as an intruder into an unfamiliar social group, which can shift the cocaine dose-response curve to the left in subordinate monkeys and to the right in dominant animals, suggesting an interaction between social variables and acute stressors. Conversely, irrespective of social rank, acute environmental enrichment, such as increasing the size of the living space, shifts the cocaine dose-response curve to the right. These findings highlight a pervasive influence of the environment in modifying the reinforcing effects of cocaine and strongly implicate brain D2 receptors.     

The N-Terminal Region of the RecU Holliday Junction Resolvase Is Essential for Homologous Recombination

The RecU Holliday junction (HJ)-resolving enzyme is highly conserved in the Firmicutes phylum of bacteria. In Bacillus subtilis, the recU gene has two putative initiation codons, at positions 1 and 33. In rec⁺ cells, only the full-length RecU polypeptide (206 residues, 23.9 kDa) was detected even after different stress treatments. To address the relevance of the flexible N-terminus, we constructed mutant variants. Experiments in vivo revealed that recUΔ1-32 (which initiates at Met33 and encodes RecUΔ1-32) and recU31 (the conserved Arg31 residue was substituted with alanine to give RecUR31A) are genuine RecU mutants, rendering cells impaired in DNA repair and chromosomal segregation. RecU has three activities: It (i) cleaves HJs, (ii) anneals complementary strands and (iii) modulates RecA activities. RecUR31A binds and cleaves HJ DNA in vitro as efficiently as wild-type RecU, but RuvB·ATPγS·Mg²⁺ fails to stimulate the RecUR31A cleavage reaction. In contrast, RecUΔ1-32 forms unstable complexes with DNA and fails to cleave HJs. RecU and its variants are capable of promoting DNA strand annealing and exert a negative effect on deoxy-ATP-dependent RecA-mediated DNA strand exchange. This study shows that the flexible N-terminus of RecU is essential for protein activity.     

Inhibitory effect of hot-water extract of quince (<Emphasis Type="Italic">Cydonia oblonga</Emphasis>) on immunoglobulin E-dependent late-phase immune reactions of mast cells

We evaluated the effect of a crude hot-water extract (HW) of quince (Cydonia oblonga Miller) fruit on immunoglobulin E (IgE)-dependent late-phase immune reactions of mast cells using in vitro system. Mast cell-like RBL-2H3 cells were treated with quince HW and late-phase reaction was then induced by stimulation with IgE + Antigen. Quince HW reduced the elevation of interleukin-13 and tumor necrosis factor-α expression level. Furthermore, quince HW suppressed these cytokine expressions of mouse bone marrow-derived mast cells (BMMCs), a normal mast cell model. Leukotriene C₄ and prostaglandin D₂ production in BMMCs after 1 and 6 h of stimulation, respectively, were also reduced by treating the cells with quince HW. We found that the induction of intracellular cyclooxygenase (COX)-2 expression but not COX-1 expression in BMMCs was reduced by quince HW. These results suggest that quince HW has an inhibitory effect on broad range of the late-phase immune reactions of mast cells.     

Determination of 25-hydroxyvitamin D3 in human plasma by reversed-phase high-performance liquid chromatography with ultraviolet detection

A method for the determination of 25-hydroxyvitamin D₃, the major metabolite of vitamin D₃ in human plasma, using a non-radioactive internal standard and reversed-phase high-performance liquid chromatography with UV detection (265 nm) has been developed. The method was applied to the determination of the metabolite in plasma from healthy subjects (n=25) and from patients with chronic renal failure (n=12). 25-Hydroxyvitamin D₃ 3-sulfate, a major conjugated metabolite of 25-hyroxyvitamin D₃, was also determined and the correlation between the concentrations of these metabolites was examined. The study showed that almost equal amounts of both compounds were detected in the plasma of healthy subjects, however, in two subjects, the amount of sulfate in the free form was found to be about twice as high as normally detected. In contrast, the free form was predominant in the plasma of patients with chronic renal failure and the sulfate was not detected in four patients.     

Calbindin D9k is not required for 1,25-dihydroxyvitamin D3-mediated Ca2+ absorption in small intestine

The exact role of calbindin D9k in vitamin D-mediated calcium absorption has been debated but remains unsettled. In 129/OlaHsd mice, calbindin D9k was found highest in duodenum (36-50%) and kidney (24-34%) followed by stomach, lung and uterus. Age does not affect the relative distribution of calbindin D9k but it does decline with age in duodenum of both male and female 129/Ola mice. Recently, we produced a null calbindin D9k mutant 129/OlaHsd mouse; this mouse proved to be indistinguishable from the wild-type in phenotype and in a serum calcium level regardless of age or gender. We have now examined directly whether the mutant mouse can absorb calcium from the intestine in response to the active form of vitamin D. The calbindin D9k null mutant mouse is fully able to absorb calcium from the intestine in response to 1,25-dihydroxyvitamin D3. It is, therefore, clear that calbindin D9k is not required for vitamin D-induced intestinal calcium absorption.