International Journal of Pharmacy and Pharmaceutical Sciences, Vol. 1, Issue 2, Oct-Dec. 2009

Review Article

MIMOSA PUDICA L. A SENSITIVE NILESH KUMAR1, PALWINDER KAUR2, KUNTAL DAS3, SUDIPTA CHAKROBORTY4 1,2 Lovely Professional University, 3 St. John’s Pharmacy College, 4 B.C.D.A. College of Pharmacy and Technology E-mail: [email protected] Received – 17th May, 2009, Revised and Accepted – 15th July 2009

ABSTRACT

Mimosa pudica is the herb that shows sensation on touch. There are various theories given on this activity like potassium migrates from the motor cell to intercellular spaces upon stimulation of Mimosa. Researches suggested that potassium may be an osmotic agent which could account for the pulvinar cell turgor decrease during the seismonastic reaction. It’s found that the efflux of potassium from the pulvinar cells of Mimosa increases substantially during the seismonastic response by increasing potassium concentrations in the external solution, a decrease in potential was reported. The chemical sensitivity is also reported. Keyword : Mimosa pudica, Lajwanti, Physiological and Metabolic Mechanisms. INTRODUCTION flowers are pink and clustered in globose Mimosa pudica is derived from the word heads. The legume (pod) is linear-oblong, 1.0 “mimic” means to allude, to sensitivity of to 1.5 cm long and 3 mm broad, with bristles leaves and “pudica” means bashful, retiring on the margins. The pods are born in groups or shrinking. Mimosa, mimics the animal and contain two to four brown seeds9,13. sensitivity that is sensitivity to light, time of Sensitive plant is also known as dorme day, gravity or like sundew drosera which dorme, dormidera, humble plant, marie-honte, react to the contact of insect. So mimosa is mayhont, morivivi, honteuse, sleeping grass, known as sensitive plant, humble plant, ti mawi, touch-me-not, and many other shame plant, sleeping grass, touch me not, names8,9. The great curiosity of sensitive lajjalu in ayurveda, namaskari in sanskrit. plant and the source of most of its names is Mimosa pudica is indoor plant having that when touched, it quickly folds its leaflets fascinating behavior1. and pinnae and droops downward at the General description attachment. The leaves also droop at Sensitive plant is a small, prostrate or night, and when exposed to rain or excessive ascending, short-lived shrub. Some authors heat. This response may be defenses against consider it a woody herb. It may reach 1 m in herbivorous insects, leaching loss of height when supported on other vegetation nutrients, or desiccation and more than 2 m in horizontal extension. Range The reddish-brown, woody stems are sparsely Sensitive plant was first described from or densely armed with curved prickles. The Brazil13 and is perhaps native to much or all root system consists of a taproot and of the New World Tropics11. Today, it is extensive fibrous roots with nodules. The pantropical in its distribution9. twigs are fine and flexible and support leaves Ecology with one or two pairs of pinnae and 15 to 25 Sensitive plant grows on most well-drained pairs of oblong leaflets 3 to 12 mm long. The soils, even scalped or eroded subsoils and

1 soils with low nutrient concentrations. It Growth and management requires disturbed soils to establish itself. In , sensitive live 1 to 2 Repeated burning may encourage its spread in years. Seedlings grow slowly for 2 or 3 pastures18. Sensitive plant is shade intolerant months and then accelerate, reaching 0.5 to 2 and does not compete with tall vegetation or m of extension at the end of the first year. grow under forest canopies. The species’ Growth of plants that survive into the second roots produce carbon disulfide, which year is much slower. Potted and field-grown selectively inhibits colonization of the individuals are sensitive to overwatering3. by mycorrhizal and pathogenic This species has been successfully tested and fungi7. This plant occurs in croplands, recommended for erosion control plantings using orchards, pastures, mowed areas, roadsides, potted material at a spacing of 60 x 60 cm5. and areas disturbed by construction. It may Benefits and detriments grow as a single plant or in tangled thickets. Sensitive plant has become a serious weed in Sensitive plant grows from near sea level up fields of corn, soybeans, tomatoes, upland to 1,300 m in elevation9 and in areas with rice, cotton, bananas, sugarcane, coffee, oil annual precipitations from about 1000 to over palms, papayas, coconuts, and rubber in many 2000 mm. The species is frost-sensitive. tropical areas. It is particularly troublesome Reproduction where hand pulling of weed is practiced. The In the Philippines, sensitive plant flowers all species may be controlled by a number of year and may produce as many as 675 seeds commercial broad-leaf herbicides3. On the per plant per year8. The species is both wind5 other hand, it is tolerated or valued as a and bee-pollinated14. Air-dry seeds from forage plant in pastures8,18. In fact, sheep Puerto Rico weighed an average of 0.0065  grazing is reported to control sensitive plant 0.0002 g/seed. With no pretreatment, seeds in pastures and plantations16. The root from this collection began germinating 7 days nodules have been shown to fix nitrogen15. after sowing and reached a maximum Thickets of sensitive plant may be a fire of 17 percent by 94 days. In hazard when dry13. The seeds and other plant another test, 80 percent germination was parts of sensitive plant contain mimonsine, an obtained in 4 weeks with alternating amino acid that is known to cause hair loss temperatures of 20 and 40 °C7. Bui and depressed growth in mammals2. An recommends a pretreatment with hot water unlikely large dose is necessary to cause followed by overnight soaking. Germination is problems, however. The is important epigeal. Seeds are transported by means of the to honeybees in the Philippines14. Extracts of bristles on the edges of their pods that cling to the plant have been shown in scientific trials clothing or to the fur of mammals. Most to be a moderate diuretic, depress duodenal nursery and home propagation is done using contractions similar to atropine sulphone, seeds, but summer cuttings may also be used3. promote regeneration of nerves, and reduce

2 menorrhagia14. Anitdepressant activity has shorter type (where the nucleus disintegrates been demonstrated in humans11. Root extracts early during ontogenetic differentiation), and are reported to be a strong emetic7. the second is a longer and narrower type Physiological mechanisms (having a persistent nucleus with one or two The parenchymatous motor cells in the nucleoli and cytoplasm). It is generally pulvini are the units of contractibility in the accepted that the normal function of the response8. It is generally accepted that the sieve tube element is for the transport of movements are caused by the diminishing or solutes along the longitudinal axis of the sudden loss of turgor in the motor cells. plant. The "conduction pathway" of Mimosa These vacuoles contract upon stimulation, similar to an animal nerve, and the presumably brought about by loss of various transmission of impulses follows similar salts in the cell, and recovery (expansion) is patterns, therefore it is easy to see why these brought about by uptake of the salt-rich fluid specialized phloem cells contain such by the vacuoles It was demonstrated that this persistent cellular components. These cells intracellular fluid or cell sap, which will be have resting membrane potential of -160mV released or expelled from the cut surface of on stimulation membrane of cell get the primary under stimulation, is polarized which is characteristic to human rich in potassium, , and other cell. Velocity of is found to substances.9 The substances, whose be 20 mm/sec in petioles and 41 mm/sec in function in plants is not understood at pulvini. On repeated stimulation action present in the tannin vacuole, which is potential show diminished activity because located inside the central vacuole of the of rise in potential threshold. motor cells, are also found in the Metabolic mechanisms intercellular spaces inferred from these It was showed that potassium migrates from results that some of the cell constituents the motor cell to intercellular spaces upon 23 dissolved in the intracellular fluid or cell sap stimulation of Mimosa Researches suggested that potassium may be an osmotic (presumably in vacuoles) are released to the agent which could account for the pulvinar exterior during stimulation, which may result cell turgor decrease during the seismonastic in a decrease of motor cell turgor. Axon reaction.20 It’s found that the efflux of conductance in animals is dependent on potassium from the pulvinar cells of increases in permeability to ions, and it may Mimosa increases substantially during the occur also in the motor cells of Mimosa. As seismonastic response by increasing illustrated above, exchange of ionic salts potassium concentrations in the external does occur between intra- and extra-cellular solution, a decrease in potential was areas upon stimulation. It appears that reported. It was also found that potassium unique to Mimosa are specialized cells in the permeability of cellular membrane outer phloem and inner phloem that may decreased with low external potassium 10 serve as a pathway of conduction. Two concentrations. Calcium ions, mainly types of sieve tube cells constitute the outer located in the tannin vacuole (inside the phloem. The first is a much wider and central vacuole), are when released upon

3 stimulation bind with proteins and alter Chemical sensitivity their conformation, the calcium which Wallace studied effect of certain animal leaves the tannin vacuole may form a anesthetics was ascertained on Mimosa .He complex with the fibrils and, thus can alter studied the action of ether, acetylene, their conformation. This action may chloroform, and ethylene on the nyctinastic promote vacuole contraction20. response of Mimosa.27 Only ether and ATP-ATPase acetylene had an inhibitory effect on such The adenosine triphosphate (ATP) contents in responses. striking is that the concentration of the motor organs, such as the primary ether necessary to prevent the evening closing pulvinus of Mimosa, is three to four times was different from that necessary to prevent greater than those in the no movable portions the morning opening (the latter requiring of the plant. Electrical and mechanical approximately twice the concentration of the activity of the contractile vacuole are first; that is, 7 and 14% respectively). On associated with increased leakage of ions seismonastic response It was found that ether through the plasma membrane, and vapor in concentrations from 13 to 25% (to concomitantly, increased ATPase activity is volume of air) prevented the movement of observed24. It was assumed that in Mimosa leaflets and petioles in from 10 to 45 min such an ATP-ATPase-calcium system may after exposure and regained I few minutes. activate the filaments or contractile proteins Methyl alcohol decreases plant sensitivity but which occur in the vacuolar cytoplasm, and ethyl alcohol. Applewhite determined the lead to pulvinus contraction Thus on the basis effect of chemical sensitivity on Spirostomum of this and previous evidence, common and Mimosa to see whether chemical were mechanism between plant and animal exerting specific effect on response contractile movement can be said to exist. It sensitivity or induce broad general effect. was found that stomatal opening ATP in the They show similar result expect for guard cells is involved in the uptake of this picrotoxin.28 ion. It might be proposed that an ATP- Theoretical interpretations ATPase system may be involved in the active Because of evolution of plant and animal are accumulation of the salts or ions, and take similar they show similarity in metabolic and part in the recovery process of the motor ceils physiological processes. A pathway of in Mimosa25. conduction in mimosa is exhibited by Neurohumors electrical action potential of same quality as a It was postulated that the neurohumor nerve pathway. This conduction pathway acetylcholine might mediate movement in leads to motor organs that exhibit cellular Mimosa. Since no acetylcholine is present in contraction and behavioral change.20 The Mimosa two amines, serotonin and system is energy dependent and involves norepinephrine, were assayed in various membrane permeability change and relies on "sensitive" plants26. Mimosa contained only monovalent cation and ion exchange between norepinephrine. In Mimosa, norepinephrine is intracellular and extracellular area. The six fold higher in the pulvini as compared to stimulating hormone but no classical the petiole. But the role of norepinephrine in neurotransmitters seem to have the same Mimosa is not known, till now. effect. Glutamate and aspartate are considered

4 to be excitatory transmitters and 7- no effect on leaflet growth or movement. aminobutyric acid, glycine, taurine, and Phentolamine was found to antagonize alanine are thought to be inhibitory directly the effect of on movement neurotransmitters. Contractile protein or in Mimosa pudica. Toriyama showed that fibrils in the vacuole membrane may be tannin vacuoles contracted and later expanded activated by an ATP-ATPase system and as the plant leaflets closed from tactile calcium efflux, which in turn is metabolically stimulation and later re-opened20. It was has activated, presumably through ions or amino observed that if young plants of Mimosa acids, by the initial stimulus. The movements pudica are stimulated by gentle mechanical for contraction are chain like in mimosa like means once or twice daily, elongation as well that of animal21. as flower bud production is significantly These studies represent investigations to retarded. He named this response determine ionic and hormonal mechanisms thigmomorphogenesis. The plant growth responsible for motor movements22. hormones, indolacetic acid (IAA) and Mimosine, an found in these species, gibberellic acid (GA3), caused the leaves to which was proposed in these studies to be in open faster and close more slowly. part responsible for movement, was There appears to be a time-dependent administered in rico. Plants were also treated reduction in tannin vacuole diameter (r = with agents known to disrupt either K + 0.984} which follows a first order kinetics efflux (tetraethylammoniumchloride), Na +,K relationship. This may suggest atrophic effect + -adenosine triphosphatase (ouabaiuk or Ca'- of light to regulate tannin vacuole size. High ~ influx (verapamil) to determine the ionic concentrations of mimosine tended to species involved in the tactile response of the produce a more rapid leaflet tactile response Mimosu. Additionally, the alpha and beta in the plant, which suggests a possible role of adrenergic receptor blocking agents were also the alkaloid in Mimosa pudica responses. It used. All the ionic blockers employed was found that the tannin vacuoles of plants produced a slower response movement, as given mimosine had a larger mean diameter well as growth retardation. Phentolamine (6.3/~m) than the control plant (4.6 l~m)20. inhibited leaflet closing, but propranolol had

Fig. 1 : Schematic representation of a proposed molecular model for leaflet dosing.

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