Properties and biochemical characterization of NADH 5 alpha-reductase from rat liver microsomes

NADH 5 alpha-reductase is present in microsomes of various rat organs: heart and skeletal muscle, liver, adrenal glands, kidney, testes and prostate. The enzyme from rat liver microsomes utilizes B-hydrogen from the coenzyme NADH for steroid reduction. After solubilization of the enzyme with the nonionic detergent lubrol, phosphatidylcholine is necessary to restore the activity. This reactivation of the enzyme activity is paralleled by a corresponding increase of Vmax for testosterone (17 beta-hydroxy-4-androsten-3-one). Km and Vmax for testosterone change, Km and Vmax for the coenzyme NADH remain constant with an alteration of phosphate concentration in the incubation medium. The NADH 5 alpha-reductase is inhibited by numerous substances: amytal, phenobarbital, mepacrin, thenoyltrifluoracetone, gallic acid propyl ester, dicoumarol, pentachlorophenol, NADP and antibodies against rat liver NADPH ferrihemoprotein reductase. Antibodies against rat liver cytochrome-b5 reductase cause an activation of NADH 5 alpha-reductase.     

Influence of seasons on circadian rhythm of acid phosphatase and beta-acetyl-glucosaminidase activity in the mouse salivary gland and liver

Influence of seasons on circadian changes in acid phosphatase and beta-acetylglucosaminidase activity was studied in the liver and submandibular gland of sexually mature mice. Seasonal differences in circadian rhythm was found in both examined enzymes in both organs. These changes were independent from each other and each rhythm was differently subjected to seasonal changes. The lowest seasonal influence was observed in acid phosphatase in the salivary gland. Activity of the other enzymes changed in different degrees, having their acrophases at different times of the day and different rhythm intensity. The highest circadian activity changes measured by amplitude and mesor were observed in spring and summer whereas in the autumn and winter their activity had much weaker rhythms or even they disappeared completely. An attempt was made to explain the observed changes by changes in hormonal background and a certain kind of genetic memory pertaining to laboratory animals.     

Inhibition of steroid 5 alpha-reductase and its effects on testosterone hydroxylation by rat liver microsomal cytochrome P-450

It has been shown previously that liver microsomal steroid 5 alpha-reductase activity increases with age in female but not male rats, which coincides with a female-specific, age-dependent decline in the cytochrome P-450-dependent oxidation of testosterone to 1 beta-, 2 alpha-, 2 beta-, 6 alpha-, 6 beta-, 7 alpha-, 15 beta-, 16 alpha-, 16 beta-, and 18-hydroxytestosterone and androstenedione. To determine whether the increase in steroid 5 alpha-reductase activity is responsible for the decrease in testosterone oxidation, we have examined the effects of the steroid 5 alpha-reductase inhibitor, 4-MA (17 beta-N,N-diethylcarbamoyl-4-methyl-4-aza-5 alpha-androstan-3-one), on the pathways of testosterone oxidation catalyzed by rat liver microsomes. We have also determined which hydroxytestosterone metabolites are substrates for steroid 5 alpha-reductase. At concentrations of 0.1 to 10 microM, 4-MA completely inhibited steroid 5 alpha-reductase activity without inhibiting the pathways of testosterone oxidation catalyzed by liver microsomes from rats of different age and sex, and from rats induced with phenobarbital or pregnenolone-16 alpha-carbonitrile. 4-MA (10 microM) had little or no effect on the oxidation of testosterone catalyzed by liver microsomes from mature male rats (which have low steroid 5 alpha-reductase activity). In contrast, the hydroxylated testosterone metabolites formed by liver microsomes from mature female rats (which have high steroid 5 alpha-reductase activity) accumulated to a much greater extent in the presence of 4-MA. Evidence is presented that 4-MA increases the accumulation of hydroxytestosterones by two mechanisms. First, 4-MA inhibited the 5 alpha-reduction of those metabolites (such as 6 beta-hydroxytestosterone) that were found to be excellent substrates for steroid 5 alpha-reductase. In the absence of 4-MA, these metabolites eventually disappeared from incubations containing liver microsomes from mature female rats. Second, 4-MA inhibited the formation of 5 alpha-dihydrotestosterone, which otherwise competed with testosterone for oxidation by cytochrome P-450. This second mechanism explains why 4-MA increased the accumulation of metabolites (such as 7 alpha-hydroxytestosterone) that were found to be poor substrates for steroid 5 alpha-reductase. Despite its marked effect on the accumulation of hydroxylated testosterone metabolites, 4-MA had no effect on their initial rate of formation by liver microsomes from either male or female rats.(ABSTRACT TRUNCATED AT 400 WORDS)     

Photoaffinity labeling of steroid 5 alpha-reductase of rat liver and prostate microsomes

21-Diazo-4-methyl-4-aza-5 alpha-pregnane-3,20-dione (Diazo-MAPD) inhibits steroid 5 alpha-reductase in liver microsomes of female rats with a Ki value of 8.7 +/- 1.7 nM, and the inhibition is competitive with testosterone. It also inhibits the binding of a 5 alpha-reductase inhibitor, [3H] 17 beta-N,N-diethylcarbamoyl-4-methyl-4-aza-5 alpha-androstan-3-one ([3H]4-MA), to the enzyme in liver microsomes. The inhibition of 5 alpha-reductase activity and of inhibitor binding activity by diazo-MAPD becomes irreversible upon UV irradiation. [1,2-3H]Diazo-MAPD binds to a single high affinity site (Kd 8 nM, 125 pmol binding sites/mg of protein) in liver microsomes of female rats, and this binding requires NADPH. Without UV irradiation, this binding is reversible, and it becomes irreversible upon UV irradiation. Both the initial reversible binding and the subsequent irreversible conjugation after UV irradiation are inhibited by inhibitors (diazo-MAPD and 4-MA) and substrates (progesterone and testosterone) of 5 alpha-reductase, but they are not inhibited by 5 alpha-reduced steroids (5 alpha-dihydrotestosterone and 5 alpha-androstan-3 alpha, 17 beta-diol). NADPH stimulates the binding of [3H] diazo-MAPD to microsomes of male rat liver and prostate. UV irradiation also induces conjugation of [3H] diazo-MAPD to these microsomes. Photoaffinity labeled liver microsomes of female rats were solubilized and fractionated by high performance gel filtration. The radioactive conjugate eluted in one major peak at Mr 50,000.     

Circadian rhythms in the activity of a plant protein kinase.

Bryophyllum fedtschenkoi is a Crassulacean acid metabolism plant whose phosphoenolpyruvate carboxylase is regulated by reversible phosphorylation in response to a circadian rhythm. A partially purified protein kinase phosphorylated phosphoenolpyruvate carboxylase in vitro with a stoichiometry approaching one per subunit and caused a concomitant 5- to 10-fold decrease in the sensitivity of the carboxylase to inhibition by malate. The sites phosphorylated in vitro were identical to those phosphorylated in intact tissue. The activity of the protein kinase was controlled in a circadian fashion. During normal diurnal cycles, kinase activity appeared between 4 and 5 h after the onset of darkness and disappeared 2----3 h before the end of darkness. Kinase activity displayed circadian oscillations in constant environmental conditions. The activity of protein phosphatase 2A, which dephosphorylates phosphoenolpyruvate carboxylase, did not oscillate. Treatment of detached leaves with the protein synthesis inhibitors puromycin and cycloheximide blocked the nocturnal appearance of the protein kinase activity, maintained phosphoenolypyruvate carboxylase in the dephosphorylated state and blocked the circadian rhythms of CO2 output that is observed in constant darkness and CO2-free air. The simplest explanation of the data is that there is a circadian rhythm in the synthesis of phosphoenolpyruvate carboxylase kinase.     

Relationship of changing delta 4-steroid 5 alpha-reductase activity to [125I]iododeoxyuridine uptake during regeneration of involuted rat prostates

To elucidate the phenotypic expression of proliferating prostatic cells, rats were castrated, and the regenerating process of involuted ventral prostates during testosterone propionate (TP) administration was investigated by examining morphology, [5-125I]iododeoxyuridine (125I-UdR) uptake, DNA content, weight, acid phosphatase, and delta 4-steroid 5 alpha-reductase (5 alpha-reductase) activities. Morphologically, TP treatment initially increased the number of epithelial cells lining glandular lobules and subsequently restored the shape of epithelial cells. 125I-UdR uptake peaked on Day 3 of TP treatment and stayed at higher levels than for uncastrated controls until Day 14 of treatment. Prostatic weight, protein content, acid phosphatase, and DNA content returned to uncastrated control levels by Day 14 of TP treatment. TP administration markedly stimulated prostatic 5 alpha-reductase activity, which peaked on the Day 5 of treatment and decreased to uncastrated control levels by Day 14 of treatment. It is concluded that TP administration to castrated rats initially induced active mitotic division of the remaining stem cells, followed by formation of differentiated functional epithelial cells. Prostatic 5 alpha-reductase was highly active at the initial phase of active mitotic cell division. The major portion of the increased enzyme activity can be regarded as a phenotypic expression of stem or transient cells of prostatic epithelium.     

Testosterone 5 alpha-reductase activity in neural tissue of fetal rhesus macaques

After development of a 5 alpha-reductase activity (5 alpha-RA) assay based on the capacity of microsomes to convert [3H]testosterone (T) to [3H]dihydrotestosterone (DHT), we analyzed 5 alpha-RA in neural tissues of fetal rhesus macaques at 50, 80 and 150 days of gestation. This method allowed us to collect kinetic data on the properties of the 5 alpha-reductase resident in fetal brain at 150 days of gestation. The Km and Vmax calculated from these data were 4.32 microM and 22.6 nmol.mg protein-1.h-1, respectively. Analyses of 5 alpha-RA in microsomes from the hypothalamic-preoptic area-amygdala (HPA) at dilutions of 1/25 and 1/50 indicated higher enzyme activity with increasing dilution of the microsomes. Measurement of 5 alpha-RA using concentrations of [3H]T which saturated the enzyme in diencephalon (DIEN), brain stem (B.STEM), temporal (TCTX) and frontal cortex (FCTX) of six 50-day old fetuses (3 males and 3 females) revealed no obvious sex differences in 5 alpha-RA, however, a significant difference (P less than 0.05) between tissues was noted. The DIEN and B.STEM contained significantly (P less than 0.05) higher levels 5 alpha-RA than the FCTX while the TCTX contained an intermediate level of activity. Significant increases in 5 alpha-RA were observed in FCTX and TCTX with time of gestation (50, 80 and 150 days). Other tissues, including amygdala, hippocampus, cerebellum, tegmentum and septum also change with fetal age. These data demonstrate the existence of 5 alpha-reductase in the fetal monkey brain. Significant changes in cortical 5 alpha-RA suggest some role for 5 alpha-reductase in development.     

The effect of testosterone propionate, 5 alpha-dihydrotestosterone and 5 alpha-androstan-3 beta, 17 beta-diol on acid phosphatase activity in the prostate of castrated rats

The acid phosphatase is studied in the prostate gland of rats. It is shown that 10 days after gonadectomy the activity of acid phosphatase lowered considerably. Administration of testosterone propionate or 5 alpha-dihydrotestosterone to castrated animals restored the enzyme activity whereas 5 alpha-androstan-3 beta,17-diol was not effective. Administration of testosterone propionate with one of its metabolites increased the activity of acid phosphatase in the prostate gland, however to a less extent than with the use of the hormone itself. The lowest activity is detected with the simultaneous application of three androgens.     

Component requirements for NADH inhibition and spermine stimulation of pyruvate dehydrogenaseb phosphatase activity

The subunit and subdomain requirements for NADH inhibition as well as Ca+ and spermine activation of the pyruvate dehydrogenaseb phosphatase were analyzed. The transacetylase-protein X subcomplex (E2-X) was required for all three effects. The oligomeric inner domain of the transacetylase did not support any of these regulatory effects. The presence of at least a portion of the outer (lipoyl-bearing) domains of the transacetylase but not the lipoyl-bearing portion of protein X was essential for expression of these regulatory effects on phosphatase activity. The inner domain of protein X may contribute to some effects. The E2-X subcomplex, alone, had no effect on phosphatase activity in the absence of Ca2+, but the subcomplex did support both NADH inhibition and spermine activation in the absence of Ca2+. Studies with peptide substrates established that spermine is directly bound by a phosphatase subunit. With the resolved pyruvate dehydrogenase component (E1b) used as the substrate, the E2-X subcomplex transformed the effect of spermine from inhibiting to stimulating the rate of dephosphorylation by the phosphatase. The above observations suggest that binding of E1b to the E2-X subcomplex alters its presentation to the phosphatase. We also present several observations that are consistent with NADH inhibition of the phosphatase being mediated through a dihydrolipoyl dehydrogenase-dependent reduction of lipoyl moieties in the E2-X subcomplex. Overall, our data establish that the outer, lipoyl-bearing domains of the oligomeric transacetylase core have an essential role in the function and regulation of the pyruvate dehydrogenase phosphatase.     

Effect of starvation and sampling time on plasma alkaline phosphatase activity and calcium homeostasis in the rat

The effect of starvation and sampling time on plasma alkaline phosphatase activity, total plasma calcium concentration and whole blood ionized calcium concentration was determined in the rat. Starvation caused a significant fall in total and ionized calcium concentrations as well as in alkaline phosphatase activity. These changes were accompanied by a fall in whole blood pH and an increase in the anion gap and a decrease in urinary excretion of calcium. These indices were restored to normal following refeeding. There was no change in serum 25-OH vitamin D concentrations following starvation for 3 days. Alkaline phosphatase activity showed a pattern compatible with the presence of a circadian rhythm when sampling took place between 0800 and 1800 h. Total and ionized calcium concentrations did not show such a rhythm when animals were fed the present diet.     

Modulation of epididymal delta 4-steroid 5 alpha-reductase activity in vitro by the phospholipid environment

Epididymal 5 alpha-reductase converts testosterone to 5 alpha-dihydrotestosterone. The enzyme is localized to the nuclear and microsomal membranes, and using two approaches, we investigated the relationship between 5 alpha-reductase activity and the membrane environment. In the first, nuclear and microsomal membrane fractions were treated with phospholipases to modify specifically the structure of the phospholipid component of the membranes, and the effects of these treatments on the kinetic parameters of 5 alpha-reductase were examined. The second approach was to observe the effects of phospholipids of known structure on solubilized 5 alpha-reductase activity. Treatment of the membrane fractions with phospholipase C increased the Km(app) of both the nuclear and microsomal 5 alpha-reductases for testosterone. Phospholipase A2 treatment also increased the Km(app) of the microsomal enzyme, but in contrast, the Km(app) of the nuclear 5 alpha-reductase for testosterone was unaffected. This demonstrated a fundamental difference in the role of the membrane environment in the expression of 5 alpha-reductase activity in these subcellular compartments. The ability of phospholipids to enhance the activity of solubilized 5 alpha-reductase was highly specific and structure related. Only phosphatidylcholines containing either unsaturated acyl chains or saturated acyl chains of 12 carbon atoms were found to activate 5 alpha-reductase. The most potent activator was dilauroyl phosphatidylcholine, which reduced the Km(app) values of both nuclear and microsomal 5 alpha-reductases for testosterone, without affecting the concentration of active 5 alpha-reductase (Vmax(app) ). This is the first time that an activator of 5 alpha-reductase has been found. These findings suggest that epididymal 5 alpha-reductase activity may be regulated by changes in the phospholipid environment.     

Specific stimulation of steroid 5 alpha-reductase solubilized from rat liver microsomes by endogenous phosphatidylserine

Dilauroylphosphatidylcholine caused a marked increase in progesterone 5 alpha-reductase activity solubilized from rat liver microsomes, whereas naturally occurring phosphatidylcholines from biological sources as well as dioleoylphosphatidylcholine had not effect on the activity. Therefore, the stimulatory effect of phospholipids normally found in rat liver microsomes was examined. The lipid extracts were prepared from the fraction which was freed from 5 alpha-reductase activity by DEAE-cellulose chromatography, and found to exhibit a strong stimulatory effect. The lipid extracts were then separated into phosphatidylserine, phosphatidylcholine and phosphatidylethanolamine by chromatography on silicic acid column and preparative thin-layer plate. Among these endogenous phospholipids, only phosphatidylserine stimulated the 5 alpha-reductase, suggesting that the lipid requirement is specific for phosphatidylserine in steroid 5 alpha-reductase from liver microsomes.     

Retinoic acid (RA): an inhibitor of 5 alpha-reductase in human prostatic cancer cells

The effect of retinoic acid (RA) on testosterone metabolism was examined in a prostatic cancer cell line of human origin, PC-3. In cells growing as monolayers as well as in cell homogenates RA causes a dose-dependent inhibition of the 5 alpha-reductase activity, thus preventing the conversion of testosterone into its hormonally active metabolite, dihydrotestosterone. Fifty per cent inhibition of the enzyme activity occurred at an RA concentration of 2 x 10(-5)M. The pattern of inhibition was that of a non-competitive inhibitor. However, when incubations were performed in the presence of varying amounts of NADPH, it turned out that RA exerts its effect by competitive inhibition of the cofactor action. Although the severe toxicity of RA precludes its systemic use as a 5 alpha-reductase inhibitory drug in humans, the possible anti-androgenic effect of other, less toxic, retinoids should be investigated.     

Determination of calcium transport and phosphoprotein phosphatase activity in microsomes from respiratory and vascular smooth muscle.

1. Calcium transport into microsomal vesicles of respiratory (tracheal) smooth muscle was characterized. This calcium transport was ATP dependent and stimulated by the presence of the oxalate ion. The magnitude of transport was similar to that reported for microsomes from other types of smooth muscle. 2. Bovine and rabbit, heavy and light microsomes were isolated from respiratory (tracheal) and vascular (aortic) smooth muscle. Preincubation of these vesicles with cyclic AMP and protein kinase did not alter the transport of calcium into the vesicles. There uas no evidence of phosphate incorporation into microsomal membrane proteins. Similar results were obtained if phosphorylase b kinase replaced the combination of cyclic AMP and protein kinase during the preincubation. 3. The phosphoprotein phosphatase activity of cardiac sarcoplasmic reticulum and smooth muscle microsomes was determined. The activity of this enzyme was found to be several-fold less in the cardiac sarcoplasmic reticulum than in various smooth muscle microsome preparations.     

Brain dolichyl pyrophosphate phosphatase. Solubilization, characterization, and differentiation from dolichyl monophosphate phosphatase activity

Dolichyl [beta-32P]pyrophosphate ([beta-32P]Dol-P-P) has been prepared chemically to study Dol-P-P phosphatase in calf brain. Calf brain microsomes catalyze the enzymatic release of 32Pi from exogenous [beta-32P]Dol-P-P by a bacitracin-sensitive reaction. [32P]Pyrophosphate was not detected with the water-soluble product even when 1 mM sodium pyrophosphate was added to impede pyrophosphatase activity. A substantial fraction of the Dol-P-P phosphatase activity can be solubilized by treating brain microsomes with 3% Triton X-100. The detergent extracts catalyze the enzymatic release of 32Pi from [beta-32P]Dol-P-P and the conversion of [14C]undecaprenyl pyrophosphate to [14C]undecaprenyl monophosphate. The solubilized Dol-P-P phosphatase activity: 1) is optimal at neutral pH; 2) is inhibited by Mn2+ and stimulated by EDTA; 3) exhibits an apparent Km = 20 microM for Dol-P-P; 4) is competitively inhibited by undecaprenyl pyrophosphate, and 5) is blocked by bacitracin. Solubilized Dol-P-P phosphatase activity differs from Dol-P phosphatase activity present in the same detergent extracts with respect to: 1) thermolability at 50 degrees C, 2) effect of 20 mM EDTA, and 3) sensitivity to phosphate and fluoride ions. These studies describe the chemical synthesis of [beta-32P]Dol-P-P for use in a convenient assay of Dol-P-P phosphatase activity. A procedure for the solubilization of Dol-P-P phosphatase activity from microsomes is presented, and an enzymological comparison indicates that Dol-P-P and Dol-P phosphatase are separate enzymes in calf brain.     

Inhibition of 5-alpha-reductase activity induces stromal remodeling and smooth muscle de-differentiation in adult gerbil ventral prostate

Prostatic differentiation during embryogenesis and its further homeostatic state maintenance during adult life depend on androgens. Dihydrotestosterone, which is synthesized from testosterone by 5 alpha-reductase (5 alpha-r), is the active molecule triggering androgen action within the prostate. In the present work, we examined the effects of 5 alpha-reductase inhibition by finasteride in the ventral prostate (VP) of the adult gerbil, employing histochemical and electron microscopy techniques to demonstrate the morphological and organizational changes of the organ. After 10 days of finasteride treatment at a dose of 100 mg/kg/day, the prostatic complex (VP and dorsolateral prostate) absolute weight was reduced to about 18%. The epithelial cells became short and cuboidal, with less secretory blebs and reduced acid phosphatase activity. The luminal sectional area diminished, suggestive of decreased secretory activity. The stromal/epithelial ratio increased, the stroma becoming thicker but less cellular. There was a striking accumulation of collagen fibrils, which was accompanied by an increase in deposits of amorphous granular material adjacent to the basal lamina and in the clefts between smooth muscle cells (SMC). Additionally, the periacinar smooth muscle became loosely packed. Some SMC were atrophic and showed a denser array of the cytoskeleton, whereas other SMC had a highly irregular outline with numerous spine-like projections. The present data indicate that 5 alpha-r inhibition causes epithelial and stromal changes by affecting intra-prostatic hormone levels. These alterations are probably the result of an imbalance of the homeostatic interaction between the epithelium and the underlying stroma.     

Cobalt-protoporphyrin, a synthetic heme analogue, feminizes hepatic androgen metabolism in the rat

A single injection of cobalt-protoporphyrin (50 mumol/kg) produced marked changes in the metabolism of 14C-labeled testosterone and 4-androstenedione by male rat liver microsomes and this effect was maintained for at least 3 weeks. The rate of 3 beta- and 5 alpha-reduction was increased to levels observed in untreated adult female animals and cobalt-protoporphyrin altered the metabolic profile of testosterone towards that observed after infusion of growth hormone whereas hypophysectomy produced a more general inhibition of androgen metabolism. The reduction of testosterone or 4-androstenedione by liver microsomes was also increased when cobalt-protoporphyrin (10-30 microM) was added in vitro but a higher concentration (100 microM) led to inhibition of androgen metabolism. The identity of the main androgen metabolites was established by TLC, HPLC and mass spectrometry and the role of 5 alpha-reductase was demonstrated using a specific inhibitor of this enzyme. The possible sites of action of cobalt-protoporphyrin are discussed in relation to its in vivo effects on serum testosterone and LH concentrations.     

Inhibition of 5alpha-reductase activity in SZ95 sebocytes and HaCaT keratinocytes in vitro.

Inhibition of 5alpha-reductase type 1 has been considered to be a promising target for treatment of androgen-dependent skin disorders, however, currently published clinical results on acne treatment are rather disappointing. In this study, the influence of selective inhibitors of 5alpha-reductase on testosterone metabolism within SZ95 sebocytes and HaCaT keratinocytes IN VITRO was investigated. In both cell types, the isotype 1 inhibitor MK386 completely inhibited the conversion of testosterone to 5alpha-dihydrotestosterone in concentrations higher than 10 (-9) M. Inhibitors of the isotype 2 such as finasteride, dihydrofinasteride, and turosteride, were >100-fold less active, while, as expected, androgen receptor inhibitors did not affect the 5alpha-reductase activity. MK386, but not finasteride, reduced testosterone-stimulated proliferation and slightly reduced the testosterone-induced increase in the amount of SZ95 sebocyte proteins. The androgen receptor inhibitor cyproterone acetate exhibited no effect on testosterone-induced proliferation, but inhibited the 5alpha-dihydrotestosterone-induced sebocyte proliferation. Our experimental findings and the existing clinical results indicate that the inhibition of 5alpha-reductase activity alone may be insufficient to reduce overall sebocyte activity and improve acne lesions.     

Structural and functional assays of AtTLP18.3 identify its novel acid phosphatase activity in thylakoid lumen

The membrane protein AtTLP18.3 of Arabidopsis (Arabidopsis thaliana) contains a domain of unknown function, DUF477; it forms a polysome with photosynthetic apparatuses in the thylakoid lumen. To explore the molecular function of AtTLP18.3, we resolved its crystal structures with residues 83 to 260, the DUF477 only, and performed a series of biochemical analyses to discover its function. The gene expression of AtTLP18.3 followed a circadian rhythm. X-ray crystallography revealed the folding of AtTLP18.3 as a three-layer sandwich with three α-helices in the upper layer, four β-sheets in the middle layer, and two α-helices in the lower layer, which resembles a Rossmann fold. Structural comparison suggested that AtTLP18.3 might be a phosphatase. The enzymatic activity of AtTLP18.3 was further confirmed by phosphatase assay with various substrates (e.g. p-nitrophenyl phosphate, 6,8-difluoro-4-methylumbelliferyl phosphate, O-phospho-L-serine, and several synthetic phosphopeptides). Furthermore, we obtained the structure of AtTLP18.3 in complex with O-phospho-L-serine to identify the binding site of AtTLP18.3. Our structural and biochemical studies revealed that AtTLP18.3 has the molecular function of a novel acid phosphatase in the thylakoid lumen. DUF477 is accordingly renamed the thylakoid acid phosphatase domain.