Non-cognizable ribonucleotide, 2''AMP, binds to a mutant ribonuclease T1 (Y45W) at a new base-binding site but not at the guanine-recognition site.

Complex of a mutant ribonuclease T₁ (Y4SW) with a non-cognizable ribonucleotide, 2′AMP, has been determined and refined by X-ray diffraction at 1.7 Å resolution. The 2′AMP molecule locates at a new base-binding site which is remote from the guanine-recognition site, where 2′GMP was found to be bound. The nucleotide adopts the anti conformation of the glycosidic bond and C3′-exo sugar pucker. There exists a single hydrogen bond between the adenine base and the enzyme, and, therefore, the site found is apparently a non-specific binding site. The results indicate that the binding of 2′AMP to the guanine-recognition site is weaker than that to the new binding site.     

PGE2 and PGF2α release by human peritoneal macrophages in endometriosis

Objective: To test for differences in the amount and activity of peritoneal macrophages present in the peritoneal fluid of women with, and without endometriosis using prostaglandin release by macrophages in culture as a marker.Patients: Women of reproductive age undergoing laparoscopy for infertility or chronic pelvic pain with postoperative diagnosis of endometriosis and women undergoing laparoscopy for sterilization.Methods: Peritoneal fluid was aspirated during laparoscopy, volume was recorded, macrophages were isolated via a Ficoll Paque gradient and kept in primary culture. PGE₂ and PGF_2α release of the cells were measured before and after stimulation with zymosan.Results: Women with endometriosis had significantly more peritoneal macrophages than controls. Peritoneal macrophages of women with endometriosis released significantly more PGE₂ than those of the control group: 8.4 ± 2.0 versus 1.4 ± 0.4 ng/ml/10⁶cells (mean ± SEM, p=0.0005) and PGF_2α : 10 ± 4.3 (endometriosis) versus 1.8 ± 0.4 (control) ng/ml/10⁶cells (mean ± SEM, p = 0.045).Conclusion: There is a significant increase in the amount of prostaglandins released by peritoneal macrophages from women with endometriosis. These prostaglandins might alter uterine and tubal contractility, thereby affecting fertility.     

Inhibition of PI3K by ZSTK474 suppressed tumor growth not via apoptosis but G0/G1 arrest

Phosphoinositide 3-kinase (PI3K) is a potential target in cancer therapy. Inhibition of PI3K is believed to induce apoptosis. We recently developed a novel PI3K inhibitor ZSTK474 with antitumor efficacy. In this study, we have examined the underlying mode of action by which ZSTK474 exerts its antitumor efficacy. In vivo, ZSTK474 effectively inhibited the growth of human cancer xenografts. In parallel, ZSTK474 treatment suppressed the expression of phospho-Akt, suggesting effective PI3K inhibition, and also suppressed the expression of nuclear cyclin D1 and Ki67, both of which are hallmarks of proliferation. However, ZSTK474 treatment did not increase TUNEL-positive apoptotic cells. In vitro, ZSTK474 induced marked G₀/G₁ arrest, but did not increase the subdiploid cells or activate caspase, both of which are hallmarks of apoptosis. These results clearly indicated that inhibition of PI3K by ZSTK474 did not induce apoptosis but rather induced strong G₀/G₁ arrest, which might cause its efficacy in tumor cells.     

Generation, characterization and crystallization of a highly active and stable cytochrome bc1 complex mutant from Rhodobacter sphaeroides

The availability of the three dimensional structure of mitochondrial enzyme, obtained by X-ray crystallography, allowed a significant progress in the understanding of the structure-function relation of the cytochrome bc₁ complex. Most of the structural information obtained has been confirmed by molecular genetic studies of the bacterial complex. Despite its small size and simple subunit composition, high quality crystals of the bacterial complex have been difficult to obtain and so far, only low resolution structural data has been reported. The low quality crystal observed is likely associated in part with the low activity and stability of the purified complex. To mitigate this problem, we recently engineered a mutant [S287R(cytb)/V135S(ISP)] from Rhodobacter sphaeroides to produce a highly active and more stable cytochrome bc₁ complex. The purified mutant complex shows a 40% increase in electron transfer activity as compared to that of the wild type enzyme. Differential scanning calorimetric study shows that the mutant is more stable than the wild type complex as indicated by a 4.3 °C increase in the thermo-denaturation temperature. Crystals formed from this mutant complex, in the presence of stigmatellin, diffract X-rays up to 2.9 Å resolution.     

Simplified method for the determination of 25-hydroxy and 1α,25-dihydroxy metabolites of vitamins D2 and D3 in human plasma application to nutritional studies

A simplified method for the determination of 25-hydroxy and 1α,25-dihydroxy metabolites of vitamins D₂ and D₃ in human plasma was developed. Plasma samples were deproteinizated and applied to a Bond Elut C₁₈ OH cartridge to separate 25-hydroxyvitamin D (25-OH-D) and 1α-25-dihydroxyvitamin D [1,25(OH)₂D] fractions. The 25-OH-D fraction was purified by a Bond Elut C₁₈ cartridge and 25-OH-D₂ and 25-OH-D₃ were assayed by HPLC using a Zorbax SIL column. The 1,25(OH)₂D fraction obtained above was subsequently applied to HPLC using a Zorbax SIL column to separate 1,25(OH)₂D₂ and 1,25(OH)₂D₃ fractions which were determined by a radioreceptor assay (RRA) using calf thymus receptor. The method was applied to nutritional studies.     

α1-Antitrypsin and α2-macroglobulin do not inhibit the kinin-releasing activity of kallikreins from human urine and saliva

α₁-Antitrypsin, α₂-macroglobulin and low-molecular weight kininogen were isolated from human serum and kallikreins from human urine and saliva.α₁-Antitrypsin and α₂-macroglobulin inhibited the activity of trypsin in releasing kinin from low-molecular weight kininogen, due to their binding with the enzyme, but did non inhibit or bind with urinary and salivary kallikreins.     

Lysophosphatidic acid-induced arterial wall remodeling: Requirement of PPARγ but not LPA1 or LPA2 GPCR

Lysophosphatidic acid (LPA) and its ether analog alkyl-glycerophosphate (AGP) elicit arterial wall remodeling when applied intralumenally into the uninjured carotid artery. LPA is the ligand of eight GPCRs and the peroxisome proliferator-activated receptor γ (PPARγ). We pursued a gene knockout strategy to identify the LPA receptor subtypes necessary for the neointimal response in a non-injury model of carotid remodeling and also compared the effects of AGP and the PPARγ agonist rosiglitazone (ROSI) on balloon injury-elicited neointima development. In the balloon injury model AGP significantly increased neointima; however, rosiglitazone application attenuated it. AGP and ROSI were also applied intralumenally for 1 h without injury into the carotid arteries of LPA₁, LPA₂, LPA_1&2 double knockout, and Mx1Cre-inducible conditional PPARγ knockout mice targeted to vascular smooth muscle cells, macrophages, and endothelial cells. The neointima was quantified and also stained for CD31, CD68, CD11b, and α-smooth muscle actin markers. In LPA₁, LPA₂, LPA_1&2 GPCR knockout, Mx1Cre transgenic, PPARγ^fl/−, and uninduced Mx1Cre × PPARγ^fl/− mice AGP- and ROSI-elicited neointima was indistinguishable in its progression and cytological features from that of WT C57BL/6 mice. In PPARγ^−/− knockout mice, generated by activation of Mx1Cre-mediated recombination, AGP and ROSI failed to elicit neointima and vascular wall remodeling. Our findings point to a difference in the effects of AGP and ROSI between the balloon injury- and the non-injury chemically-induced neointima. The present data provide genetic evidence for the requirement of PPARγ in AGP- and ROSI-elicited neointimal thickening in the non-injury model and reveal that the overwhelming majority of the cells in the neointimal layer express α-smooth muscle actin.     

EFFECT OF ULCERATIVE COLITIS ACTIVITY ON PLASMA CONCENTRATION OF TRANSFORMING GROWTH FACTOR β1

Enhanced expression of transforming growth factor-β₁(TGF-β₁) demonstrated in human colonic mucosa of patients with ulcerative colitis (UC), indicates its possible significance in the pathogenesis of this disease. The aim of this study was to evaluate plasma TGF-β₁concentration in patients with different degrees of colonic mucosal injury, as a possible indicator of ulcerative colitis activity. TGF-β₁concentration was measured with an enzyme immunoassay (EIA) in plasma of 45 patients with endoscopically confirmed UC. Values observed in UC patients (40.5±15.9 ng/ml) were significantly higher than in healthy people (18.3±11.6 ng/ml) and higher than in patients with irritable colon syndrome (ICS), (20.5±13.6 ng/ml). The highest plasma TGF-β₁(58.6±112.1 ng/ml) was in patients with the severe UC course. TGF-β₁level analysed in all UC patients revealed significant positive correlation with scored degree of mucosal injury (r=0.396;P<0.01). Among other possible laboratory markers of the disease activity, only C-reactive protein concentration demonstrated significant correlation. Enhanced production of TGF-β₁can be related to inflammation activity. Measurement of plasma TGF-β₁may be considered as a biomarker of the disease activity.     

Interleukin-1 and tumor necrosis factor are not synergistic for human synovial fibroblast PLA2 activation and PGE2 production

Patterns of arachidonic acid release and metabolism were altered in human synovial fibroblasts following exposure to cytokines. Recombinant interleukin-1 induced an approximate 3-fold in crease in [³H]-AA release, a 7-fold increase in PGE₂ production and a 2-fold increase in PLA₂ activity in human synovial fibroblasts. Recombinant tumor necrosis factor induced similar responses, however, the magnitude was less than that mediated by interleukin-1. A combination of the two cytokines had an additive effect on [³H]-AA release and PLA₂ activity while PGE₂ production was similar to that detected using interleukin-1 alone. [³H]-AA, was released in substantial amounts when sodium fluoride was used as a stimulus but PGE₂ was not. These data show that tumor necrosis factor and interleukin-1 can both activate synovial cell PLA₂ and induce generation of PGE₂, but act in an additive rather than a synergistic fashion. Furthermore, the data show that PGE₂ production is not always concordant with [³H]-AA release, suggesting that appropriate enzyme(s) must be activated.     

3-(1′,1′-Dimethylbutyl)-1-deoxy-Δ-THC and related compounds: synthesis of selective ligands for the CB2 receptor

The synthesis and pharmacology of 15 1-deoxy-Δ⁸-THC analogues, several of which have high affinity for the CB₂ receptor, are described. The deoxy cannabinoids include 1-deoxy-11-hydroxy-Δ⁸-THC (5), 1-deoxy-Δ⁸-THC (6), 1-deoxy-3-butyl-Δ⁸-THC (7), 1-deoxy-3-hexyl-Δ⁸-THC (8) and a series of 3-(1′,1′-dimethylalkyl)-1-deoxy-Δ⁸-THC analogues (2, n=0–4, 6, 7, where n=the number of carbon atoms in the side chain−2). Three derivatives (17–19) of deoxynabilone (16) were also prepared. The affinities of each compound for the CB₁ and CB₂ receptors were determined employing previously described procedures. Five of the 3-(1′,1′-dimethylalkyl)-1-deoxy-Δ⁸-THC analogues (2, n=1–5) have high affinity (K_i=<20 nM) for the CB₂ receptor. Four of them (2, n=1–4) also have little affinity for the CB₁ receptor (K_i=>295 nM). 3-(1′,1′-Dimethylbutyl)-1-deoxy-Δ⁸-THC (2, n=2) has very high affinity for the CB₂ receptor (K_i=3.4±1.0 nM) and little affinity for the CB₁ receptor (K_i=677±132 nM).

Scheme 3. (a) (C₆H₅)₃PCH₃⁺ Br⁻, n-BuLi/THF, 65°C; (b) LiAlH₄/THF, 25°C; (c) KBH(sec-Bu)₃/THF, −78 to 25°C then H₂O₂/NaOH.     

Integrin αvβ3, metalloproteinases, and sphingomyelinase-2 mediate urokinase mitogenic effect

Plasminogen activators are implicated in the pathogenesis of several diseases such as inflammatory diseases and cancer. Beside their serine-protease activity, these agents trigger signaling pathways involved in cell migration, adhesion and proliferation. We previously reported a role for the sphingolipid pathway in the mitogenic effect of plasminogen activators, but the signaling mechanisms involved in neutral sphingomyelinase-2 (NSMase-2) activation (the first step of the sphingolipid pathway) are poorly known. This study was carried out to investigate how urokinase plasminogen activator (uPA) activates NSMase-2. We report that uPA, as well as its catalytically inactive N-amino fragment ATF, triggers the sequential activation of MMP-2, NSMase-2 and ERK1/2 in ECV304 cells that are required for uPA-induced ECV304 proliferation, as assessed by the inhibitory effect of Marimastat (a MMP inhibitor), MMP-2-specific siRNA, MMP-2 defect, and NSMase-specific siRNA. Moreover, upon uPA stimulation, uPAR, MT1-MMP, MMP-2 and NSMase-2 interacted with integrin α_vβ₃, evidenced by co-immunoprecipitation and immunocytochemistry experiments. Moreover, the α_vβ₃ blocking antibody inhibited the uPA-triggered MMPs/uPAR/integrin α_vβ₃ interaction, NSMase-2 activation, Ki67 expression and DNA synthesis in ECV304. In conclusion, uPA triggers interaction between integrin α_vβ₃, uPAR and MMPs that leads to NSMase-2 and ERK1/2 activation and cell proliferation. These findings highlight a new signaling mechanism for uPA, and suggest that, upon uPA stimulation, uPAR, MMPs, integrin α_vβ₃ and NSMase-2 form a signaling complex that take part in mitogenic signaling in ECV304 cells.     

Di(1,N-ethenoadenosine)5′, 5-P,P-tetraphosphate, a fluorescent enzymatically active derivative of Ap4A

Di(1,N⁶-ethenoadenosine) 5′, 5-P¹, P⁴-tetraphosphate, ε-(Ap₄A), a fluorescent analog of Ap₄A has been synthesized by reaction of 2-chloroacetaldehyde with Ap₄A. At neutral pH this Ap₄A analog presents characteristic maxima at 265 and 274 nm, shoulders at ca 260 and 310 nm and moderate fluorescence (λ_exc 307 nm, λ_em 410 nm). Enzymatic hydrolysis of the phosphate backbone produced a slight hyperchromic effect but a notorious increase of the fluorescence emission. Cytosolic extracts from adrenochromaffin tissue as well as cultured chromaffin cells were able to split ε(Ap₄A) and catabolize the resulting ε-nucleotide moieties up to ε-Ado.     

LRRK2, but not pathogenic mutants,protects against H2O2 stress depending on mitochondrial function and endocytosis in a yeast model

Background

Mutations in LRRK2 are the most common genetic cause of Parkinson's disease (PD). Studies in the yeast Saccharomyces cerevisiae have provided valuable insights into the mechanisms of cellular dysfunction associated with the expression of faulty PD genes.

Methods

We developed a yeast model for full-length LRRK2 studies. We expressed wild-type (wt) LRRK2 and mutations and evaluated their role during oxidative stress conditions. The involvement of mitochondria was assessed by using rho-zero mutants and by evaluating reactive oxygen species (ROS) production and mitochondrial membrane potential by flow cytometry. The involvement of endocytosis was also studied by testing several endocytic mutants and by following the vacuolar delivery of the probe FM4-64.

Results

Expression of LRRK2 in yeast was associated to increased hydrogen peroxide resistance. This phenotype, which was dependent on mitochondrial function, was not observed for PD-mutants G2019S and R1441C or in the absence of the kinase activity and the WD40 repeat domain. Expression of the pathogenic mutants stimulated ROS production and increased mitochondrial membrane potential. For the PD-mutants, but not for wild-type LRRK2, endocytic defects were also observed. Additionally, several endocytic proteins were required for LRRK2-mediated protection against hydrogen peroxide.

Conclusions

Our results indicate that LRRK2 confers cellular protection during oxidative stress depending on mitochondrial function and endocytosis.

General significance

Both the loss of capacity of LRRK2 pathogenic mutants to protect against oxidative stress and their enhancement of dysfunction may be important for the development of PD during the aging process.     

Uncoupling protein mRNA, mitochondrial GTP-binding, and T4 5′-deiodinase activity of brown adipose tissue in Daurian ground squirrel during hibernation and arousal

The mRNA level of uncoupling protein (UCP) specific for brown adipose tissue (BAT) in Daurian ground squirrel, was detected by using a [³²P]-labeled oligonucleotide probe. The UCP concentration in mitochondria was indirectly determined by titration with its specific ligand [³H]-labeled GTP. Type II T₄ 5′-deiodinase of BAT was assayed concomitantly. We found two species of mRNA for UCP with lengths of about 1.9 and 1.5 kb, respectively, both occurring in almost the same concentration. UCP mRNA content was elevated significantly during hibernation, but the UCP concentration did not change compared with that of nonhibernating controls kept at room temperature. When hibernating squirrels were aroused, the UCP mRNA remained at the elevated level as during hibernation, but the UCP concentration increased in comparison with that of nonhibernating controls or during hibernating. Changes in T₄ 5′-deiodinase activity in BAT were similar to the variations of the UCP mRNA level. These results suggest that the activation of T₄ 5′-deiodinase in BAT may be an important factor for the up-regulation and maintenance of UCP mRNA content needed for the synthesis of sufficient UCP to acquire the thermogenic capacity for arousal from hibernation.     

Synthesis of two carboxylic haptens for raising antibodies to 25-hydroxyvitamin D3 and 1α,25-dihydroxyvitamin D3

Hapten derivatives of 25-hydroxyvitamin D₃ and 1α,25-dihydroxyvitamin D₃ were synthesized using the Wittig–Horner approach. Both haptens bearing a carboxylic group at the side chain that can be linked to a protein for raising antibodies of potential utility for the determination of 25-hydroxyvitamin D₃, 1α,25-dihydroxyvitamin D₃ and 1α-hydroxylated vitamin D₃ analogues.     

Beta-1 integrins mediate substrate dependent effects of 1α,25(OH)2D3 on osteoblasts

Surface micron-scale and submicron scale features increase osteoblast differentiation and enhance responses of osteoblasts to 1,25-dihydroxyvitamin D₃ [1α,25(OH)₂D₃]. β₁ integrin expression is increased in osteoblasts grown on Ti substrates with rough microarchitecture, and it is regulated by 1α,25(OH)₂D₃ in a surface-dependent manner. To determine if β₁ has a role in mediating osteoblast response, we silenced β₁ expression in MG63 human osteoblast-like cells using small interfering RNA (siRNA). In addition, MG63 cells were treated with two different monoclonal antibodies to human β₁ to block ligand binding. β₁-silenced MG63 cells grown on a tissue culture plastic had reduced alkaline phosphatase activity and levels of osteocalcin, transforming growth factor β₁, prostaglandin E₂, and osteoprotegerin in comparison with control cells. Moreover, β₁-silencing inhibited the effects of surface roughness on these parameters and partially inhibited effects of 1α,25(OH)₂D₃. Anti β₁ antibodies decreased alkaline phosphatase but increase osteocalcin; effects of 1α,25(OH)₂D₃ on cell number and alkaline phosphatase were reduced and effects on osteocalcin were increased. These findings indicate that β₁ plays a major and complex role in osteoblastic differentiation modulated by either surface microarchitecture or 1α,25(OH)₂D₃. The results also show that β₁ mediates, in part, the synergistic effects of surface roughness and 1α,25(OH)₂D₃.     

Properties of a novel β-glucosidase from Fusarium proliferatum ECU2042 that converts ginsenoside Rg3 into Rh2

A novel β-glucosidase from Fusarium proliferatum ECU2042 (FPG) was successfully purified to homogeneity with a 506-fold increase in specific activity. The molecular mass of the native purified enzyme (FPG) was estimated to be approximately 78.7 kDa, with two homogeneous subunits of 39.1 kDa, and the pI of this enzyme was 4.4, as measured by two-dimensional electrophoresis. The optimal activities of FPG occurred at pH 5.0 and 50 °C, respectively. The enzyme was stable at pH 4.0–6.5 and temperatures below 60 °C, and the deactivation energy (E_d) for FPG was 88.6 kJ mo1⁻¹. Moreover, it was interesting to find that although the purified enzyme exhibited a very low activity towards p-nitrophenyl β-d-glucoside (pNPG), and almost no activity towards cellobiose, a relatively high activity was observed on ginsenoside Rg₃. The enzyme hydrolyzed the 3-C, β-(1 → 2)-glucoside of ginsenoside Rg₃ to produce ginsenoside Rh₂, but did not sequentially hydrolyze the β-d-glucosidic bond of Rh₂. The K_m and V_max values of FPG for ginsenoside Rg₃ were 2.37 mM and 0.568 μmol (h mg protein)⁻¹, respectively. In addition, this enzyme also exhibited significant activities towards various alkyl glucosides, aryl glucosides and several natural glycosides.     

Atrial proarrhythmia due to increased inward rectifier current (IK1) arising from KCNJ2 mutation – A simulation study

Atrial fibrillation (AF) has been linked to increased inward rectifier potassium current, I_K1, either due to AF-induced electrical remodelling, or from functional changes due to the Kir2.1 V93I mutation. The aim of this simulation study was to identify at cell and tissue levels' mechanisms by which increased I_K1 facilitates and perpetuates AF. The Courtemanche et al. human atrial cell action potential (AP) model was modified to incorporate reported changes in I_K1 induced by the Kir2.1 V93I mutation in both heterozygous (Het) and homozygous (Hom) mutant forms. The modified models for wild type (WT), Het and Hom conditions were incorporated into homogeneous 1D, 2D and 3D tissue models. Restitution curves of AP duration (APD), effective refractory period (ERP) and conduction velocity (CV) were computed and both the temporal and the spatial vulnerability of atrial tissue to re-entry were measured. The lifespan and tip meandering pattern of re-entry were also characterised. For comparison, parallel simulations were performed by incorporating into the Courtmanche et al. model a linear increase in maximal I_K1 conductance. It was found that the gain-in-function of V93I ‘mutant’ I_K1 led to abbreviated atrial APs and flattened APD, ERP and CV restitution curves. It also hyperpolarised atrial resting membrane potential and slowed down intra-atrial conduction. V93I ‘mutant’ I_K1 reduced the tissue's temporal vulnerability but increased spatial vulnerability to initiate and sustain re-entry, resulting in an increased overall susceptibility of atrial tissue to arrhythmogenesis. In the 2D model, spiral waves self-terminated for WT (lifespan < 3.3 s) tissue, but persisted in Het and Hom tissues for the whole simulation period (lifespan > 10 s). The tip of the spiral wave meandered more in WT tissue than in Het and Hom tissues. Increased I_K1 due to augmented maximal conductance produced similar results to those of Het and Hom Kir2.1 V93I mutant conditions. In the 3D model the dynamic behaviour of scroll waves was stabilized by increased I_K1. In conclusion, increased I_K1 current, either by the Kir2.1 V93I mutation or by augmented maximal conductance, increases atrial susceptibility to arrhythmia by increasing the lifespan of re-entrant spiral waves and the stability of scroll waves in 3D tissue, thereby facilitating initiation and maintenance of re-entrant circuits.     

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.     

Developmental regulation of expression of the α1 and α2 subunits mRNAs of the voltage-dependent calcium channel in a differentiating myogenic cell line

The voltage-dependent calcium channel (VDCC) in skeletal muscle probably plays a key role in transducing membrane charge movement to the calcium release channel. We report here that the expression of VDCC α₁ and α₂ mRNAs is developmentally regulated in differentiating C2Cl2 myogenic cells. The α₁ mRNA is not detectable in the myoblast form of C2Cl2 cells while its expression is induced 20-fold in differentiated myotubes. In contrast, the α₂ mRNA is weakly expressed in myoblasts but is also induced upon myogenic differentiation.