Effect of K+ and H+ stress and role of Ca2+ in the regulation of intracellular K+ concentration in mung bean roots

The effects of external K⁺, H⁺ and Ca2⁺ concentrations on the intracellular K+ concentration, [K⁺]i, and the K⁺-ATPase activity in 2-day-old mung bean roots [ Vigna mungo (L.) Hepper] were investigated. [K⁺]i, in mung bean roots was markedly decreased by external K⁺ or H⁺ stress and did not recover the initial value even after the stress was removed. This decrease in [K⁺]i, gradually disappeared with the addition of (Ca2⁺. Ca2⁺ may offset the harmful effects of ion stress. Ca2⁺ seems to have two effects on K+ transport; control of K⁺ permeability and activation of K⁺ uptake, although K⁺-ATPase activity was inhibited by Ca2⁺ concentrations higher than 10–4 M. We suggest that Ca2⁺ activates K⁺ uptake indirectly through the acidification of the cytoplasm.     

Enhancement of 45Ca2+ Binding to Acidic Lipids by Barbiturates, Diphenylhydantoin, and Ethanol

Abstract: Effects of barbiturates, diphenylhydantoin, and ethanol on ⁴⁵Ca²⁺ binding to acidic lipids have been examined in an organic solvent-aqueous partition system. Hexobarbital, pentobarbital, and phenobarbital, at concentrations of 0.3 and/or 0.6 mM, enhanced the binding of ⁴⁵Ca²⁺ to phosphatidic acid, phosphatidylserine, and sulfatide but not to phosphatidylinositol or cardiolipin. Diphenylhydantoin, 0.3 mM, enhanced ⁴⁵Ca²⁺ binding to phosphatidic acid and phosphatidylserine but not to sulfatide. Ethanol at 80 mM did not enhance ⁴⁵Ca²⁺ binding to phosphatidic acid, but ethanol decreased the binding to cardiolipin and increased it to sulfatide.     

Passive uptake of K+(86Rb+) in sunflower roots at low external K+ concentrations

Passive fluxes of K⁺ (⁸⁶Rb) into roots of sunflower ( Helianthus annuus L. cv. Uniflorus) were determined at low K⁺ concentration (0.1 and 1.0 mM K⁺) in the ambient solution. Metabolic uptake of K⁺ was inhibited by 10⁻⁴M 2,4-dinitrophenol (DNP). K⁺ (⁸⁶Rb) fluxes were studied both continuously and by time differentiation of uptake. In high K⁺ roots passive uptake was directly proportional to the K⁺ concentration of the uptake solution, indicating free diffusion. This assumption was supported by the fact that passive Rb⁺ uptake was not affected by high K⁺ concentrations. In low K⁺ roots the passive uptake of K⁺ was higher than in high K⁺ roots. The increase was possibly due to carrier-mediated K⁺ transport. As K⁺ effluxes were quantitatively similar to influxes, it is suggested that passive K⁺ fluxes represent exchange diffusion without relation to net K⁺ transport.     

Potassium transport in wheat seedlings grown with different potassium supplies.

The K⁺(⁸⁶Rb) uptake into the roots and the translocation to the shoots of 11-day-old intact wheat seedlings ( Triticum aestivum L. cv. Martonvásári 8) were investigated using plants grown with different K⁺ supplies. The effects of environmental conditions (darkness, humidity) and of metabolic and transport inhibitors (oligomycin, disalicylidene-propanediamine, 2,4-dinitriphenol, diethylstilbestrol, colchicine) were also studied. Plants with K content of about 0.2 mmol/g dry weight in the root and 0.5 mmol/g dry weight in the shoot (low K status) showed high K⁺ uptake into the roots and high translocation rates to the shoots. Both transport processes were very low in plants with K content of more than 1.5 and 2.2 mmol/g dry weight in the root and shoot, respectively (high K status).
Darkness and a relative humidity of the air of 100% did not influence K⁺ uptake by roots, but did inhibit upward translocation and water transport. Inhibition of photosynthesis and treatments with diethylstilbestrol (10⁻⁵ mol/dm³), as well as with colchicine resulted in inhibition of translocation in plants of low K status, but these inhibitors had little effect on K⁺ uptake by the roots. Oligomycin, 2,4-dinitrophenol and diethylstilbestrol (10⁻⁴ mol/dm³), however, inhibited K⁺ uptake by the roots. In general, K⁺ transport processes were almost unchanged in plants of high K status. It is concluded that only plants of low K status operating with active K⁺ transport mechanisms are responsive to environmental factors. In high K⁺ plants the transport processes are passive and are uncoupled from the metabolic energy flow.     

Membrane and ion transport properties in cereals under acidic and alkaline stress

The effects of pH on the growth and the K⁺ (⁸⁶Rb) uptake and K⁺ content of excised rice ( Oryza sativa L. cv. Dunghan Shali) and wheat ( Triticum aestivum L. cv. GK Szeged) roots were investigated. Rice roots responded to H⁺ stress with an increased K⁺(⁸⁶Rb) influx and a decreased K⁺ content, suggesting an increased exchange between the cytoplasmic K⁺ pool and the external medium. Under the same experimental conditions wheat did not show any anomalous K⁺(⁸⁶Rb) influx. Growth of both rice and wheat was relatively insensitive to pH between 4 to 10.     

Selenium uptake by Butyrivibrio fibrisolvens and Bacteroides ruminicola

Abstract The uptake and incorporation of ⁷⁵[Se]selenite by Butyrivibrio fibrisolvens and Bacteroides ruminicola were by constitutive systems. Rates of uptake were higher in chemostat culture than in batch culture and there may be some inducible component. Uptake of [⁷⁵Se]selenite was distinct from sulphate or selenate transport, since sulphate and selenate did not inhibit selenite uptake, nor could sulphate or selenate uptake be demonstrated in these organisms. Selenite uptake in B. fibrisolvens had and apparent K _m of 1.74 mM and a V _max of 109 ng Se · min⁻¹· (mg protein)⁻¹. An apparent K _m of 1.76 mM and V _max of 1.5 μg Se · min⁻¹· (mg protein)⁻¹ was obtained for B. ruminicola . [⁷⁵Se]Selenite uptake by both organisms was partially sensitive to inhibition by 2,4-DNP. Uptake by B. fibrisolvens was also partially inhibited by azide and arsenate and in B. ruminicola it was partially inhibited by fluoride. CCCP, CPZ, DCCD or quinine did not inhibit uptake in either B. fibrisolvens or B. ruminicola . Selenite transport by both organisms was sensitive to IAA and NEM and was strongly inhibited by sulphite and nitrite. [⁷⁵Se]Selenite was converted to selenocystine, selenohomocystine and selenomethionine by B. fibrisolvens. B. ruminicola did not incorporate [⁷⁵Se]selenite into organic compounds, but did reduce it to red elemental selenium.     

Sodium Transport from Blood to Brain: Inhibition by Furosemide and Amiloride

Abstract: Brain sodium uptake in vivo was studied using a modified intracarotid bolus injection technique in which the uptake of ²²Na ⁺ was compared with that of the relatively impermeable molecule, [³H]l-glucose. At a Na ⁺ concentration of 1.4 m M , Na ⁺ uptake was 1.74 ± 0.07 times greater than l -glucose uptake. This decreased to 1.34 ± 0.04 at 140 m M Na ⁺, indicating saturable Na ⁺ uptake. Relative Na ⁺ extraction was not affected by pH but was inhibited by amiloride ( K _i= 3 ± 10⁻⁷ M ) and by 1 m M furosemide. The effects of these two inhibitors were additive. Brain uptake of ⁸⁶Rb ⁺, a K ⁺ analogue, was measured to study interaction of K ⁺ with Na ⁺ transport systems. Relative ⁸⁶Rb ⁺ extraction was also inhibited by amiloride; however, it was not inhibited by furosemide. The results suggest the presence of two distinct transport systems that allow Na ⁺ to cross the luminal membrane of the brain capillary endothelial cell. These transport systems could play an important role in the movement of Na ⁺ from blood to brain.     

Effects of Protein Kinase Inhibitors on Morphology and Function of Cultured Bovine Adrenal Chromaffin Cells: KN-62 Inhibits Secretory Function by Blocking Stimulated Ca2+ Entry

Abstract: In cultured bovine adrenal chromaffin cells, a nonselective protein kinase inhibitor, staurosporine, inhibits secretory function and induces neurite outgrowth. In the present study, effects of other nonselective protein kinase inhibitors (K-252a, H-7, and H-8) and reportedly selective protein kinase inhibitors (KN-62 and chelerythrine chloride) were examined on bovine adrenal chromaffin cell morphology, secretory function, and ⁴⁵Ca²⁺ uptake. Treatment of chromaffin cells with 10 µ M K-252a, 50 µ M H-7, or 50 µ M H-8 induced changes in cell morphology within 3 h; these compounds also induced a time-dependent inhibition of stimulated catecholamine release. Chelerythrine chloride, a selective inhibitor of Ca²⁺/phospholipid-dependent protein kinase, did not induce outgrowth or inhibit secretory function under our treatment conditions. KN-62, a selective inhibitor of Ca²⁺/calmodulin-dependent protein kinase II (CaMK II), significantly inhibited stimulated catecholamine release (IC₅₀ value of 0.32 µ M ), but had no effect on cell morphology. The reduction of secretory function induced by 1 µ M KN-62 was significant within 5 min and rapidly reversible. Unlike H-7, H-8, and staurosporine, KN-62 significantly inhibited stimulated ⁴⁵Ca²⁺ uptake. KN-04, a structural analogue of KN-62 that does not inhibit CaMK II, inhibited stimulated ⁴⁵Ca²⁺ uptake and catecholamine release like KN-62. These studies indicate that KN-62 inhibits secretory function via the direct blockade of activated Ca²⁺ influx. The nonselective inhibitors, K-252a, H-7, H-8, and staurosporine, inhibit secretory function by another mechanism, perhaps one involving alterations in the cytoskeleton.     

Effect of Al on the phytosiderophore-mediated solubilization of Fe and uptake of Fe-phytosiderophore complex in wheat (Triticum aestivum)

The effect of Aluminum (Al) on phytosiderophore-mediated solubilization of insoluble Fe and the uptake of phytosiderophore-Fe³⁺ complex was examined in wheat ( Triticum aestivum L. cv. Atlas 66). Al addition did not affect the Fe solubilization by 2'-deoxymugineic acid (DMA), although Cu addition significantly inhibited the solubilization capacity. Addition of ten times more Al than Fe to the solution of DMA-Fe³⁺ complex did not decrease the absorption of the DMA-Fe³⁺ complex at 375 nm. Furthermore, NMR study indicated that Al did not shift the proton chemical shifts of DMA. All these results suggest that Al could not form a complex with the phytosiderophore, and is thereby unlikely to affect the process of phytosiderophore-mediated solubilization of Fe. Exposure of root to Al up to 100 μ M for 3 h did not inhibit the DMA-Fe³⁺ uptake by the roots, but longer pretreatment (>6 h) inhibited the uptake of the DMA-Fe³⁺ by more than 50%. Neither the uptake of DMA-Fe³⁺ nor root elongation was inhibited by 24 h pretreatment with 10 μ M Al, but both uptake and root elongation were inhibited by higher Al (>20 μ M ) pretreatment. These results suggest that Al did not directly block the transport of the phytosiderophore-Fe³⁺ complex, and that the decreased uptake of the phytosiderophore-Fe³⁺ complex resulted from the roots being damaged by Al.     

Analysis of splenic Gr-1int immature myeloid cells in tumor-bearing mice

It is known that the number of ImC, expressing myeloid markers, CD11b and Gr-1, increase with tumor growth and ImC play a role in the escape of tumor cells from immunosurveillance in tumor-bearing mice and cancer patients. However, the mechanisms by which ImC suppress immune responses in tumor-bearing mice have not been completely elucidated. In the present study, we investigated the function of splenic ImC freshly isolated from tumor-bearing mice and splenic ImC differentiated in vitro by GM-CSF. Freshly isolated splenic ImC were divided into two groups depending on Gr-1 expression, Gr-1 high (Gr-1^hi) and intermediate (Gr-1^int). Freshly isolated splenic Gr-1^int ImC, but not Gr-1^hi ImC, from tumor-bearing mice reduced production of IFN-γ in CD8⁺ T cells, but neither splenic Gr-1^int ImC nor Gr-1^hi ImC isolated from naive mice did. Both Gr-1^int and Gr-1^hi ImC differentiated in vitro by GM-CSF inhibited production of IFN-γ in both CD8⁺ and CD4⁺ T cells. In addition, the differentiated Gr-1^int ImC, one-third of which were CD11c⁺F4/80⁺ cells, and their culture supernatants suppressed proliferative responses of T cells stimulated by CD3 ligation, but the differentiated Gr-1^hi ImC and their culture supernatants did not. These results suggest that Gr-1^int ImC are altered to immune-suppressive cells in tumor circumstances and that they are differentiated by GM-CSF progressively into CD11c⁺F4/80⁺ cells with further suppressive activity against T cells.     

Growth and accumulation of N, K+, Ca2+ and Mg2+ in barley exposed to various nutrient regimes and root/shoot temperatures

Six cultivars of spring barley ( Hordeum vulgare L. cvs Salve, Nümberg II, Bomi, Risø 1508, Mona and Sv 73 608) were grown in water culture for three weeks with various combinations of mineral supply and differential roots/shoot temperatures during the growth period. Most important for growth and accumulation of N, K⁺, Ca²⁺ and Mg²⁺ was the mineral supply, followed by the root temperature and the choice of cultivar. Treatments with low mineral supply or low root temperature induced a uniform reduction in growth and accumulation of the ions studied. The effects of low mineral supply and low root temperature on growth and N accumulation was additive, which indicates that these factors exert their influence independently of each other.
Roots grown at 10°C were smaller and Rb⁺(⁸⁶Rb) influx was higher than in roots grown at 20°C. It is suggested that the control of Rb⁺(⁸⁶Rb) influx is affected by the root temperature and the age of the plants. The higher ⁸⁶Rb⁺ (⁸⁶Rb) influx into the low temperature roots could not compensate for the smaller root size. However, the lower total mineral accumulation made up for the needs of the smaller plants and cannot explain the reduction in growth.     

ENERGETICS OF AMINO ACID TRANSPORT INTO BRAIN SLICES: EFFECTS OF K+ DEPLETION AND Rb+ OR Cs+ SUBSTITUTION ON AMINO ACID UPTAKE

Abstract— Mouse brain slices were depleted of K⁺ by three 10-min incubations-in oxygenated HEPES-buffered medium lacking glucose and K⁺. Addition of K⁺ or Rb⁺ (or Cs⁺, to a smaller degree) with glucose, or with succinate, malate, and pyruvate (SMP) before incubation at 37°C with ¹⁴C-amino acids restored active low-affinity transport of d -Glu, α-aminoisobutyrate (AIB), GABA, Gly, His, Val, Leu, Lys, and Orn. Ouabain at 1–2μ m with Rb⁺ was more inhibitory with SMP than with glucose, suggesting that the glycoside may affect specific energy coupling to transport. Valinomycin, in contrast, showed no specificity of inhibition of amino acid uptake with glucose or SMP and K⁺ or Rb⁺. Cs⁺ partially restored amino acid uptake, but Li⁺ was less effective than Cs ⁺. NaF at 10 m m with SMP + Rb⁺, or SMP + K⁺ did not inhibit amino acid uptake. Therefore, it was possible to dissociate glycolysis and Na⁺, K ⁺ -ATPase activity from amino acid transport. The ion replacements for K ⁺ that supported active amino acid transport indicate that the specificity of ions in possible ionic gradients for transport energetics should be reexamined.     

Possible Mechanism of Dantrolene Stabilization of Cultured Neuroblastoma Cell Plasma Membranes

Abstract: Some reports have suggested that dantrolene interacts directly with the membrane bilayer. We investigated effects of dantrolene on changes in membrane properties induced by compound 48/80 (C48/80), a membrane stimulator. The addition of C48/80 for 1 min elicited a rapid, dose-dependent Ca²⁺ influx, which was reduced to 14% by the absence of external Ca²⁺. Dantrolene inhibited the C48/80-induced increase in Ca²⁺ permeability of plasma membranes in a concentration-dependent manner (0.33–10 µ M , IC₅₀ value was 5 µ M ). We next examined C48/80-induced changes in structural and dynamic membrane properties by electron spin resonance (ESR). The ratio h ₀/ h ₋₁ was determined to evaluate membrane fluidity. C48/80 increased the membrane fluidity in a concentration-dependent manner (0.1–0.56 mg/ml). Dantrolene (10 µ M ) itself did not change the membrane fluidity, but it significantly reduced the C48/80-induced increase in membrane fluidity (0.56 mg/ml). Moreover, the C48/80-induced increase in fluidity was dependent on extracellular Ca²⁺. We conclude that dantrolene protects neuroblastoma cell plasma membrane from C48/80-induced membrane perturbation, which causes Ca²⁺ influx and an increase in membrane fluidity. These findings strongly suggest that dantrolene directly stabilizes the neuronal plasma membrane.     

Relationship between polar basipetal auxin transport and acropetal Ca2+ transport into tomato fruits

The dependence of acropetal Ca²⁺ transport on polar basipetal indoleacetic acid (IAA) transport was investigated in excised tomato fruits ( Lycopersicon esculentum L. Mill.) using an in vitro fruit system. Auxin transport inhibitors like triiodobenzoic acid (TIBA), chlorofluorenolmethyl ester (CME) and naphthylphthalamic acid (NPA) were used in order to investigate the effect of restricted polar basipetal auxin transport on the acropetal transport of ⁴⁵Ca²⁺, ⁸⁶Rb⁺ and ⁹⁸Sr²⁺ into the same fruits. TIBA and CME inhibited basipetal transport of IAA. particularly in 10- to 12-day-old tomato fruits, and simultaneously restricted the acropetal transport of ⁴⁵Ca²⁺. The auxin transport inhibitors failed to significantly reduce the upward transport of ⁸⁶Rb⁺ and the transport of ⁹⁶Sr²⁺ was less inhibited than that of ⁴⁵Ca²⁺. TIBA and CME did not significantly affect the acropetal transport of labelled water into the fruit, nor the cation-exchange capacity or K⁺ and Mg²⁺ concentrations in the tomato fruit. These results support the view that a part of the Ca²⁺-specific acropetal transport into tomato fruits is associated with the polar basipetal IAA transport. This Ca²⁺ transport is independent of the transpiration stream into the fruit and the cation exchange capacity of the fruit tissue.     

PHOTOSYNTHETIC BICARBONATE UTILIZATION BY A TERRESTRIAL CYANOBACTERIUM, NOSTOC FLAGELLIFORME (CYANOPHYCEAE)

The photosynthetic characteristics of the terrestrial cyanobacterium, Nostoc flagelliforme , after complete recovery by rewetting, was investigated to see whether it could use bicarbonate as the external inorganic carbon source when submerged. The photosynthesis–pH relationship and high pH compensation point suggested that the terrestrial alga could use bicarbonate to photosynthesize when submerged. The photosynthetic oxygen evolution rates were significantly inhibited in Na ⁺ -free and Na ⁺ + Li ⁺ media but were not affected by the absence of Cl ⁻ , implying that the bicarbonate uptake was associated with Na ⁺ / HCO₃ ⁻ symport rather than Cl ⁻ /HCO₃ ⁻ exchange system.     

Platelet-Activating Factor: Diminished Acetylcholine Release from Rat Brain Slices Is Mediated by a Gi Protein

Abstract: The effect of platelet-activating factor (PAF) on neurotransmitter release from rat brain slices prelabeled with [³H]acetylcholine ([³H]ACh), [³H]norepinephrine ([³H]NE), or [³H]serotonin ([³H]5-HT) was studied. PAF inhibited K⁺ depolarization-induced [³H]ACh release in slices of brain cortex and hippocampus by up to 59% at 10 n M but did not inhibit [³H]ACh release in striatal slices. PAF did not affect 5-HT or NE release from cortical brain slices. The inhibition of K⁺-evoked [³H]ACh release induced by PAF was prevented by pretreating tissues with several structurally different PAF receptor antagonists. The effect of PAF was reversible and was not affected by pretreating brain slices with tetrodotoxin. PAF-induced inhibition of [³H]ACh release was blocked 90 ± 3 and 86 ± 2% by pertussis toxin and by anti-Gαi_1/2 antiserum incorporated into cortical synaptosomes, respectively. The results suggest that PAF inhibits depolarization-induced ACh release in brain slices via a Gαi_1/2 protein-mediated action and that PAF may serve as a neuromodulator of brain cholinergic system.     

Proadrenomedullin N-Terminal 20 Peptide (PAMP), an Endogenous Anticholinergic Peptide: Its Exocytotic Secretion and Inhibition of Catecholamine Secretion in Adrenal Medulla

Abstract: In cultured bovine adrenal medullary cells, stimulation of nicotinic receptors by carbachol evoked the Ca²⁺-dependent exocytotic cosecretion of proadrenomedullin N-terminal 20 peptide (PAMP) (EC₅₀ = 50.1 µ M ) and catecholamines (EC₅₀ = 63.0 µ M ), with the molar ratio of PAMP/catecholamines secreted being equal to the ratio in the cells. Addition of PAMP[1–20]NH₂ inhibited carbachol-induced ²²Na⁺ influx via nicotinic receptors (IC₅₀ = 2.5 µ M ) in a noncompetitive manner and thereby reduced carbachol-induced ⁴⁵Ca²⁺ influx via voltage-dependent Ca²⁺ channels (IC₅₀ = 1.0 µ M ) and catecholamine secretion (IC₅₀ = 1.6 µ M ). It did not alter high K⁺-induced ⁴⁵Ca²⁺ influx via voltage-dependent Ca²⁺ channels or veratridine-induced ²²Na⁺ influx via voltage-dependent Na⁺ channels. PAMP seems to be a novel antinicotinic peptide cosecreted with catecholamines by a Ca²⁺-dependent exocytosis in response to nicotinic receptor stimulation.     

Effects of nitrate on influx, efflux and translocation of potassium in young sunflower plants

Influx, efflux and translocation of K⁺(⁸⁶Rb) were studied in the roots of sunflower seedlings ( Helianthus annuus L. cv. Uniflorus) treated with 0–4.0 m M NO₃⁻ during a 9 day growth period or a 24 h pretreatment period. Roots treated with high levels of NO₃⁻ absorbed and translocated more K⁺(⁸⁶Rb) than seedlings treated with low levels of NO₃⁻. The content of K⁺ in the shoots was, however, higher in seedlings treated with low levels of NO₃⁻, indicating a low rate of retranslocation of K⁺ in those plants. K⁺(⁸⁶Rb) efflux was highest into the low-NO₃⁻ solutions. All effects on K⁺(⁸⁶Rb)-fluxes were more obvious in high-K plants than in low-K plants. The results are discussed in relation to the Dijkshoorn-Ben Zioni hypothesis for K⁺+ NO₃⁻-uptake and translocation in plants.     

Activation of Sea Urchin Eggs by Halothane and Its Inhibition by Dantrolene

Eggs of the sea urchin, Hemicentrotus pulcherrimus , were stimulated by halothane, known to induce Ca²⁺ release from sarcosome, to cause fertilization membrane formation in normal and Ca²⁺ free artificial sea water. In the absence of external Ca²⁺, halothane-induced formation of fertilization membrane was inhibited by dantrolene, an inhibitor of Ca²⁺ release from sarcosome, but was not blocked by nifedipine, a Ca²⁺ antagonist specific to Ca²⁺ channels in plasma membrane. Ca²⁺ release from sedimentable fraction isolated from eggs was induced by halothane and was inhibited by dantrolene, but was not blocked by nifedipine. In normal artificial sea water, halothane-caused egg activation was not inhibited either by dantrolene or by nifedipine, but was blocked in the presence of both compounds. ⁴⁵Ca²⁺ influx was substantially stimulated by halothane in eggs exposed to ⁴⁵CaCl₂. Halothane-induced ⁴⁵Ca²⁺ influx into eggs was inhibited by nifedipine but was not blocked by dantrolene. When Ca²⁺ release from intracellular organellae is blocked, Ca²⁺ transport through Ca²⁺ channels in plasma membrane probably acts as a "fail-safe" system to induce an increase in cytosolic Ca²⁺ level, resulting in egg activation.     

Vaccination with SIVmac239Δnef activates CD4+ T cells in the absence of CD4+ T-cell loss

Background  Pathogenic HIV and SIV infections characteristically deplete central memory CD4⁺ T cells and induce chronic immune activation, but it is controversial whether this also occurs after vaccination with attenuated SIVs and whether depletion or activation of CD4⁺ T-cell play roles in protection against wild-type virus challenge.
Methods  Rhesus macaques were vaccinated with SIVmac239Δnef and quantitative and phenotypic polychromatic flow cytometry analyses were performed on mononuclear cells from blood, lymph nodes and rectal biopsies.
Results  Animals vaccinated with SIVmac239Δnef demonstrated no loss of CD4⁺ T cells in any tissue, and in fact CCR5⁺ and CD28⁺CD95⁺ central memory CD4⁺ T cells were significantly increased. In contrast, CD4⁺ T-cell numbers and CCR5 expression significantly declined in unvaccinated controls challenged with SIVmac239. Also, intracellular Ki67 increased acutely as much as 3-fold over baseline in all tissues after SIVmac239Δnef vaccination then declined following primary infection.
Conclusion  We demonstrated in this study that SIVmac239Δnef vaccination did not deplete CD4⁺ T cells but transiently activated and expanded the memory cell population. However, increases in numbers and activation of memory CD4⁺ T cells did not appear to influence protective immunity.