Biomedical Research 2011; 22 (2): 125-129 Banaba: The natural remedy as antidiabetic drug Cheolin Park1 and Jae-Sik Lee2 1Wellness banaba Co. Ltd. 864-1 Janghang-dong, Ilsandong-gu, Goyang-si, Gyeonggi-do KOREA 410-380
2Department of Clinical Laboratory Science, Hyejeon College, San 16, Namjang-ri, Hongseong-eup, Hongseong-gun, Chungcheongnam-do Korea 350-702
Abstract Banaba (Lagerstroemia speciosa Pers) leaves has been used as tea or decoction type in the Philippines for blood sugar control and used in the treatment of diabetes in India and con- tain a treterpenoid compound know as a corosolic acid which can promote the absorption and utilization of glucose in the cell by transporting the stimulated glucose. As such, banaba plays a role in regulating levels of blood sugar and insulin in the blood. Banaba might de- crease blood sugar but most of countries prefer to use diabetes medications even though they aware of serious side-effects. Additionally, various adverse effects are reported recently when many diabetic patients have been taken antidiabetic drugs in the long term. Here we reviewed whether banaba and corosolic acid can be replaced for current antidiabetic drugs through published several mechanisms of banaba and antidiabetic drugs, respectively. Con- sequently, banaba, one of medicinal herbs for antidiabetic effect surely can be functioned and can be a perfect candidate instead of antidiabetic drugs on lowering or maintaining normal blood sugar levels and prevention of diabetic complications without as well as treat- ment without any adverse effects.
Key words: Lagerstroemia speciosa diabetes blood glucose corosolic acid GLUT4 (glucose transporter) Introduction
Corosolic acid, one of primary components from banaba
extract induced GLUT4 (Glucose Transporter) transloca-
Lagerstroemia speciosa Pers. (locally known as banaba in
tion in diabetic mice [6]. The hypoglycemic effects from
the Philippines) is widely distributed in most part of Phil-
several human studies were shown with standard extract
ippines, India and Malaysia. Banaba includes several
from L. speciosa leaves on 56 type II diabetic [7], with
compounds such as corosolic acid and tannins, including
banaba tablet containing banaba extract on 24 mild type II
lagerstroemin that have effects on the treatment of diabe-
diabetic patients [8], with banaba extract on 18 diabetic
tes. These ingredients are thought to stimulate glucose
patients with one-year clinical study [9] and with coroso-
uptake and have insulin-like activity. The latter activity is
lic acid on 31 subjects [10]. Unfortunately, many antidia-
thought to be secondary to activation of the insulin recep-
betic drugs are currently prescribing at hospitals and clin-
tor tyrosine kinase [1] or the inhibition of tyrosine phos-
ics over the world but recently various side effects were
phatase. That’s why banaba is called “natural plant insu-
found and reported [11,12,13]. The alternative medicine
from natural resource for diabetes or lowering of blood
sugar level which has good efficacy without any side ef-
The hot water leaves extract has reported to reduce dia-
fects should be necessary because diabetes actually need
betic symptoms in genetically diabetic KK-AY mice [2].
long-term period management. In this short review paper,
For past several years, banaba has been reported that vari-
we review and compare with the mechanism of antidia-
ous active ingredients isolated from L. speciosa leaves
betic drugs and published hypoglycemic effects and those
shows their hypoglycemic properties through increase the
mechanisms of banaba. Therefore, we strongly recom-
rate of glucose uptake or inducing glucose transport like
mend to pre-and diabetic patients that prior to taking a
insulin [3]. Glucose uptake is mediated in muscle mainly
dose of antidibectic drugs have lots of side effects, it is
by the insulin-regulated glucose transporter (GLUT4). In
the most valuable way to find the treatment or preventive
the absence of insulin, this transporter slowly recycles
way to maintain a normal blood glucose level and to pre-
between an intracellular storage compartment and the
vent diabetic complications from natural resources.
Biomedical Research 2011 Volume 22 Issue 2 125
Mechanism of antidiabetic drugs
normal rats fed high levels of soluble starch [18], alloxan-
The primary antidiabetic prescribing drugs can be classi-
diabetic rats [19,20], male genetically obese-diabetic
fied in four groups: (a) drugs which indirectly increase
(KK-Ay) mice [2]. Hypoglycemic effects of banaba ex-
insulin release; (b) drugs which activates directly insulin
tracts have also been shown in placebo-controlled clinical
receptors; (c) drugs which act directly as inhibitors of
trials in subjects with type II diabetes [7] and mild type II
glucosidase; (d) drugs which decreases the liver's glucose
diabetes [8]. Like antidiabetic drugs, several mechanisms
output. There are also major four different classes of
of banaba and corosolic acid, one of components from
antidiabetic drugs depend on different mechanisms: sul-
banaba extracts on lowering blood glucose levels were
fonylureas, insulin-sensitizing agents, biguanides, and elucidated [6]. alpha-glucosidase inhibitors [14,15].
Sulfonylureas act by lowering blood sugar by stimulating
(a) Glucose Transport Enhancers
the beta cells in the pancreas to release more insulin.
Studies indicate that the majority of antidiabetic constitu-
Generally sulfonylureas are included Glucotrol (glipizide)
ents so far identified in banaba are glucose transport en-
and Amaryl (glimepiride) [16] but are reported various
hancers [6,21,22]. These substances of great interest for
side effects such as , upset stomach skin
their potential use as energy tonics for the elderly and as
means to maintain healthy blood glucose [6]. The glucose
transport-enhancing activity of banaba was previously
Insulin sensitizers function by improving the sensitivity to
shown in a group of ellagitannins in the leaves known as
insulin and work with insulin to move sugar into the cells,
flosin B, lagerstroemin and reginin A [21,22]. Lager-
directly targeting for insulin resistance. They lower the
stroemin produced dose-dependent glucose transport-
amount of sugar released by the liver and make fat cells
activating activity from concentrations of 0.02 to 0.30mM
more sensitive to the effects of insulin. Two major drugs
[22], and in subsequent studies was shown to possess
of this class are included Actos (pioglitazone) and multiple insulin-like activities
Avandia (rosiglitazone) [14,15]. Recently, Avandia looks
suggested that the “insulin-like” glucose transport-
to be prohibited from the EU market and heavily re-
enhancing activity of “the ellagitannins or their metabo-
stricted here in the US and several Asian countries be-
lites” was responsible for the blood glucose-lowering ac-
cause several studies were reported the serious problems
tivity of banaba reported in studies in diabetic patients
Biguanides improve insulin's ability to move sugar into cells especially into the muscle cells. A biguanide class is
(b) Insulin-Mimetic (peptide analogs) activity
included Metformin (Glucophage) which also improves
More recently, it was shown that small molecule compo-
control of glycemia primarily by inhibiting hepatic gluco-
nents of gallotannins, which along with ellagitannins are
neogenesis and glycogenolysis [17]. However, biguanides
major components of tannic acid, not only hold dose-
can cause very serious condition called lactic acidosis so
dependent glucose transport-stimulating activity in mouse
this is primarily a concern in people with kidney problems
pre-adiposcytes, but many of the insulin-mimetic activi-
ties found from banaba as well. These small components
were identified as alpha- and beta-pentagalloylglucose (α-
Alpha-glucosidase inhibitors retard the digestion and ab-sorption of carbohydrates in the small intestine and hence
and β-PGG). However, of the two, the alpha form was
reduce the increase in blood glucose level after meals.
clearly the more potent. α- PGG also stimulated transloca-
tion of GLUT4 [23], inhibited differentiation of pre-
insulin. However, side effects can be bloating, gas and
adipocytes, and targeted the insulin receptor, the latter
diarrhea. Current prescribing drugs are Precose and helping to explain its various insulin-like activities. Glyset [14,15].
(c) GLUT4 activation
Rosiglitazone (Avandia), pioglitazone (Actos) and met-
GLUT4 is a protein in muscle and gat cells which trans-
formin (Glucophage) act by both reducing glucose pro-
ports glucose across plasma membrane, thereby allowing
duction in the liver, and increasing insulin dependent glu-
cells to gain energy and to maintain healthy blood sugar
levels. Physical exercise is widely known to help maintain
healthy glucose metabolism [24,25] in large part because
Mechanisms of banaba extract and corosolic acid
physical exercise enhances GLUT4 levels in muscles.
The blood sugar-lowering activity of extracts prepared
Indeed, a long-term high-fat diet has the opposite of low-
from the leaves of banaba has been demonstrated in a
ering their levels [26] and whereas the increase in blood
number of animal models and clinical studies, including
flow from exercise allows GLUT4 to move into muscle membranes [5,27].
126 Biomedical Research 2011 Volume 22 Issue 2
Banaba and diabetes
(d) Alpha-Amylase and Alpha Glucosidase Inhibitors
gestive heart failure [11,13]. Due to various adverse ef-
One study found banaba tea inhibited α-amylase activity
fects from these antidiabetic drugs, most of researchers
by 38% [26] and others have reported that methanol and
have been found the active component for diabetes from
water extracts of the leaves inhibit both α-amylase and α-
natural resources [28,29,30]. Among several plants, the
glucosidase [18]. Both α-amylase and α-glucosidase are
most strong candidate was banaba and corosolic acid as
enzymes involved in the digestion of carbohydrates and
ingredients. When we investigate each mechanism of
allow the accompanying increase in blood glucose levels
antidiabetic drugs, several same mechanisms can meet
following a meal containing starches and sugars. By in-
hibiting these enzymes, carbohydrate absorption is de-
layed along with the increase in blood sugar.
Oral administration of corosolic acid (10 mg/kg) to male genetically type 2 diabetic (KK-Ay) mice produced a de-
crease in blood glucose levels which reached statistical
Discussion
significance only at 4 hours post-administration [6]. The
antidiabetic activity of an extract from the leaves of
Diabetes is widely and seriously recognized as one of the
Lagerstroemia speciosa has been demonstrated in a ran-
leading causes of death and disability in the world. Diabe-
domized clinical trial at daily dosages of 32 and 48mg
tes often leads to blindness, heart and blood vessel disease,
(1% corosolic acid) for 2 weeks showed a significant re-
stroke, kidney failure, amputations, and nerve damage.
duction in the blood glucose levels [7].
Currently, several antidiabetic drugs have been prescribed
for lowering blood sugar levels and for retarding further
If we look several mechanisms of banaba and corosolic
development. However, unfortunately, various adverse acid closely, there are same mechanism with that of
effects such as heart failure, hypoglycemia, kidney failure
antidibetic drugs. One of isolated six pentacyclic triter-
and weight gain are reported. After all, FDA recently
penes from banaba leaves, corosolic acid was shown the
warned those side effects and prohibited selling of Avan-
best bioactivity against alpha-glucosidase, contributes
dia in the US. Due to various reported side effects, many
most to the alpha-glucosidase inhibitory activity [31] and
scientists have been seeking for the substitution as banaba tea inhibited α-amylase activity by 38% [26]. With
antidiabetic drugs from the nature which have a hypogly-
these results, banaba and corosolic acid can be replaced
cemic effect [28]. Prior to the administration of nutraceu-
with Precose and Glyset as alpha-amylase and alpha-
ticals for antidibetes, however, it is necessary to under-
stand their mechanism to be functioned correctly, compar-
ing with that of current antidiabetic drugs.
Miura et al.[6] reported that corosolic acid induces
GLUT4 translocation onto plasma membrane. Binding of
All sulfonylurea drugs may cause hypoglycemia. Most
insulin to receptors on muscle cells leads rapidly to fusion
patients become resistant to these drugs over time, and
of those vesicles with the plasma membrane and insertion
may require either dose adjustments or a switch to insulin
of the glucose transporters (GLUT4), thereby giving the
[14,15,16]. The administration of oral hypoglycemic cell an ability to efficiently take up glucose. Thereby, ba-drugs has been associated with increased cardiovascular
naba and corosolic acid make the induction of GLUT4
mortality as compared with treatment with diet alone or
translocation and uptake of glucose into the cells, lower-
ing glucose levels in the blood. Furthermore corosolic
acid stimulates glucose uptake via enhancing insulin re-
Alpha-glucosidase inhibitors are generally well tolerated,
ceptor phosphorylation [32]. This mechanism can be simi-
and do not cause hypoglycemia [14,15]. The most com-
larly functioned as pioglitazone (Actos) and rosiglitazone
mon adverse effects are gastrointestinal problems, includ-
(Avandia) like insulin sensitizers were shown [14,15].
ing flatulence, diarrhea, and abdominal pain.
Fructose-2,6-bisphosphate (F-2,6-BP) plays a critical role
Metformin causes gastrointestinal (stomach and digestive)
in hepatic glucose output by regulating gluconeogenesis
reactions in about a third of patients. A rare, but very seri-
and glycolysis in the liver. Corosolic acid increased the
ous, reaction to metformin is lactic acidosis, which occurs
production of F-2,6-BP along with a decrease in intracel-
in patients with multiple medical problems, including re-
lular levels of cAMP both in the presence and in the ab-
sence of forskolin in isolated hepatocytes. Corosolic acid
inhibits gluconeogenesis by increasing the production of
Thiazolidinediones [17] are generally well tolerated in
F-2,6-BP by lowering the cAMP level and inhibiting PKA
early trials, but they are structurally related to an earlier
activity in isolated hepatocytes [33]. These effects on he-
drug, troglitazone, which was associated with liver func-
patic glucose metabolism may underlie the various anti-
tion problems. Research showed that after one to 16
diabetic actions of corosolic acid. Rosiglitazone (Avan-
months of therapy with pioglitazone or rosiglitazone, dia), pioglitazone (Actos) and metformin (Glucophage)
some patients developed serious edema and signs of con-
were shown decreases hepatic glucose production so ba-
Biomedical Research 2011 Volume 22 Issue 2 127
naba and corosolic acid surely can be shown good effi-
Acknowledgments
cacy instead of those current drugs [14,15,16].
Authors would like to thank to Mr. Cheol-Hoe Kim, CEO
Stimulation of insulin receptors is known to cause pho-
of Wellness banaba Co. Ltd., Korea and Mr. Futoshi Ma-
phorylation of several proteins on tyrosine residues be-
tsuyama, CEO of Use Techno Corporation, Japan about
cause this event is an essential for insulin’s action on
their precious comment and advice on banaba.
downstream signaling molecules. Hattori et al. [1] found that lagerstroemin induces tyrosine-phosphorylation of IRβ (insulin receptor). This can be proved that laber- References
stroemin, one of extract fractions from banaba can be
antidibetic drugs such as Metformin which activates di-
Hattori K, Sukenobu N, Sasaki T, Takasuga S, Hayashi
T, Kasai R, Yamasaki K, Hazeki O. Activation of insu-
lin receptors by lagerstroemin. J Pharmacol Sci 2003;
Consequently, Banaba extract contains several bioactive
components including corosolic acid and tannins, includ-
Kakuda T, Sakane I, Takihara T, Ozaki Y, Takeuchi H,
ing lagerstroemin that act like insulin lowering the blood
Kuroyanagi M. Hypoglycemic effect of extracts from
sugar in the body. Corosolic acid is a triterpenoid glyco-
Lagerstroemia speciosa L. leaves in genetically dia-
side that improves the cellular uptake of glucose and
betic KK-AY mice. Biosci Biotechnol Biochem 1996;
thought to stimulate glucose uptake and have insulin-like
activity [3]. This component was observed to be an activa-
Liu F, Kim J, Li Y, Liu X, Li J, Chen X. An extract of
tor of glucose transport into cells, which ultimately results
Lagerstroemia speciosa L. has insulin-like glucose up-
in a lowering blood glucose levels. The latter activity is
take-stimulatory and adipocyte differentiation-
thought to be secondary to activation of the insulin recep-
inhibitory activities in 3T3-L1 cells. J Nutr 2001; 131,
tor tyrosine kinase or the inhibition of tyrosine phos-
phatase. Transporting glucose into cells is critical for pro-
Watson RT, Pessin JE. Bridging the GAP between in-
viding the energy necessary for those cells to carry out
sulin signaling and GLUT4 translocation. Trends Bio-
Zorzano A, Palacin M, Guma A. Mechanisms regulat-
With many published data, banaba and its extracts could
ing GLUT4 glucose transporter expression and glucose
be functioned on lowering or maintaining blood sugar
transport in skeletal muscle. Acta Physiol Scand 183,
levels with different mechanism. Banaba extracts may
play a role in the treatment of diabetes, by affecting fac-
Miura T, Itoh Y, Kaneko T, Ueda N, Ishida T, Fuku-
tors (such as blood glucose level) that are associated with
shima M, Matsuyama F, Seino Y (2004) Corosolic acid
the development of diabetes. It also significantly in-
induces GLUT4 translocation in genetically type 2 dia-
creased insulin sensitivity and GLUT4 translocation, im-
betic mice. Biol Pharm Bull 27, 1103-1105.
proved hyperglycemia, lowered hepatic lipid contents and
Judy WV, Hari SP, Stogsdill WW, Judy JS, Naguib
triglycerides. It also acts as alpha-glucosidase inhibitors,
YMA, Passwater R (2003) Antidiabetic activity of a
slowing down the absorption of starchy foods from the
intestine, thereby retarding the rise in blood glucose after
speciosa leaves in type II diabetics: A dose-dependence
study. J Ethnopharmacol 87, 115-117.
Unfortunately, there are no direct applications to evaluate
Ikeda Y, Chen JT, Matsuda T (1999) Effectiveness and
the mechanism of banaba extract on human subjects,
safety of banabamin tablet containing extract from ba-
which can be limited to confirm the mechanism. However,
naba in patients with mild type 2 diabetes. Japan
there are several human studies with banaba extract
Pharmacol Ther 27, 829-835. (Japanese)
[7,8,9,10], which were shown the hypoglycemic effects
Ikeda Y, Noguchi M, Kishi S, Masuda K, Kusumoto A, Zeida M, Abe K, and Kiso Y (2002) Blood glucose
and safety for a short and long-term period. It is impossi-
controlling effects and safety on single and long-term
ble to speculate the correct effective mechanism in the
administration on the extract of Banaba leaves. J. Nutr
human body but the banaba extract surely could be func-
tioned on lowering blood sugar level without adverse ef-
fects. Those functions and mechanisms of banaba extracts
mean that banaba will be the best natural antidiabetic
remedy for prevention and treatment of diabetes as natural
(2006) Effect of corosolic acid on postchallenge plasma
gift without any other side-effects shown in current pre-
scribed antidiabetic drugs. Therefore, banaba will be very
11. Ozkaya O, Yavuz O, Can B, Dilek M, Savli E, Acikgoz
promising candidate for future antidiabetic drug market as
Y, Bedir A, Akpolat T (2010) Effect of rosiglitazone on
cisplatin-induced nephrotoxicity32, 368-371.
128 Biomedical Research 2011 Volume 22 Issue 2
Banaba and diabetes 12. (2010) Sul-
phonyurea as a cause of severe hypoglycaemia in the
alternative medicine for the treatment of type 2 diabetes.
13. (2010) Pioglitazone: side effect and
29. Malviya N, Jain S, Malviya S (2010) Antidiabetic po-
tential of medicinal plants. Acta Pol Pharm 67, 113-118.
14. Phillips PJ, Twigg SM (2010) Oral hypoglycaemics - a
30. Samad A, Shams MS, Ullah Z, Wais M, Nazish I, Sul-
review of the evidence. Aust Fam Physician 39, 651-
tana Y, Aqil M (2009) Status of herbal medicines in the
treatment of diabetes: a review. Curr Diabetes Rev 5,
15. Sundaram A, Anand Moses CR, Ilango S, Seshiah V
(1998) Newer Antidiabetic drugs. Int. J. Diab. Dev.
31. Toda M, Kawabata J, Kasai T (2001) Inhibitory effects
of ellagi- and gallotannins on rat intestinal α-
16. Proks P, Reimann F, Green N, Gribble F, Ashcroft F
glucosidase complexes. Biosci Biotechnol Biochem 65,
(2002) Sulfonylurea stimulation of insulin secretion.
32. Shi L, Zhang W, Zhou YY, Zhang YN, Li JY, Hu LH,
17. Bailey CJ (2002) Treating insulin resistance in type 2
Li J (2008) Corosolic acid stimulates glucose uptake
diabetes with metformin and thiazolidinediones. Diabe-
via enhancing insulin receptor phosphorylation. Eur J
18. Suzuki Y, Hayashi K, Sakane I, Kakuda T (2001) Effect
33. Yamada K, Hosokawa M, Fujimoto S, Fujiwara H, Fu-
and mode of action of banaba (Lagerstroemia speciosa
jita Y, Harada N, Yamada C, Fukushima M, Ueda N,
L) leaf extracts on postprandial blood glucose in rats. J
Kaneko T, Matsuyama F, Yamada Y, Seino Y, Inagaki N
Japan Soc Nutr Food Sci 54, 131-137.
(2008) Effect of corosolic acid on gluconeogenesis in
19. Mishra Y, Khan MSY, Zafar R, Agarwal SS (1990)
rat liver. Diabetes Res Clin Pract 80, 48-55.
Hypoglycemic activity of leaves of Lagerstroemia spe-
34. Hou W, Li Y, Zhang Q, Wei X, Peng A, Chen L, Wei Y
ciosa L Pers. Indian J Pharmacol 22, 174-176.
(2009) Triterpene acids isolated from Lagerstroemia
20. Miyaji N, Kazama M, Ina H, Yamada K, Yamakawa T
speciosa leaves as alpha-glucosidase inhibitors. Phyto-
(1999) Influence of banaba-kuwa extracted powder on
plasma glucose level in rat. J Trad Med 16, 208-211.
21. Murakami C, Myoga K, Kasai R, Ohtani K, Kurokawa
T, Ishibashi S, Dayrit F, Padolina WG, Yamasaki K
(1993) Screening of plant constituents for effect on
glucose transport activity in Ehrlich ascites tumour
cells. Chem Pharm Bull 41, 2129-2131.
22. Hayashi T, Maruyama H, Kasai R, Hattori K, Takasuga
S, Hazeki O, Yamasaki K, Tanaka T (2002) Ellagitan-
nins from Laegerstromia speciosa as activators of glu-
cose transport in fat cells. Planta Med 68, 173-175.
23. Li Y, Kim J, Li J, Liu F, Liu X, Himmeldirk K, Ren Y,
Wagner TE, Chen X (2005) Natural anti-diabetic comp-
ound 1,2,3,4,6-penta-O-galloyl-D-glucopyranose binds
to insulin receptor and activates insulin-mediated glu-
Holten MK, Zacho M, Gaster M, Juel C, Wojtaszewski
JF, Dela F (2004) Strength training increases insulin-
mediated glucose uptake, GLUT4 content, and insulin
signaling in skeletal muscle in patients with type 2 dia-
25. Short KR, Vittone JL, Bigelow ML, Proctor DN, Rizza
RA, Coenen-Schimke JM, Nair KS (2003) Impact of
aerobic exercise training on age-related changes in in-
sulin sensitivity and muscle oxidative capacity. Diabe-
26. Hansawasdi C, Kawabata J, Kasai T. α-Amylase in-
Correspondence to: Biosci Biotechnol Biochem 2000; 64: 1041-1043.
Wasserman DH, Ayala JE (2005) Interaction of physio-
logical mechanisms in control of muscle glucose up-
864-1 Janghang-dong, Ilsandong-gu, Goyang-si
Clin Exp Pharmacol Physiol 32, 319-323.
Biomedical Research 2011 Volume 22 Issue 2 129
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